hot research topics in organic chemistry

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Organic chemistry articles within Nature

News & Views | 14 August 2024

Innovative way to break chemical bonds broadens horizons for making molecules

A fresh approach to breaking chemical bonds combines the energy of heat and light, and could drive previously inaccessible chemical reactions — opening up synthetic routes to compounds that have not yet been made.

Hannah J. Sayre
& Harsh Bhatia

Article 14 August 2024 | Open Access

Unimolecular net heterolysis of symmetric and homopolar σ-bonds

Net heterolysis of symmetric and homopolar σ-bonds by stimulated doublet–doublet electron transfer is reported in a series of atypical S N 1 reactions, in which selenides show SDET-induced nucleofugalities rivalling those of more electronegative halides or diazoniums.

Anna F. Tiefel
, Daniel J. Grenda
& Alexander Breder

Article | 18 July 2024

Catalysis of an S N 2 pathway by geometric preorganization

A small-molecule (646 Da) hydrogen-bond-donor catalyst accelerates the S N 2 step of an enantioselective Michaelis–Arbuzov reaction by recapitulating the geometric preorganization principle used by enzymes.

Gabriel J. Lovinger
, Marcus H. Sak
& Eric N. Jacobsen

News & Views | 03 July 2024

Atom-swap chemistry speeds synthesis of compounds for drug discovery

Reactions have been discovered that selectively transform nitrogen-containing rings, called pyrimidines, into various other ring systems — enabling rapid preparation of compound libraries for pharmaceutical research.

Ángel Rentería-Gómez
& Osvaldo Gutierrez

Article 19 June 2024 | Open Access

Direct radical functionalization of native sugars

A radical-based method for functionalizing native sugars shows a way to remove typical protecting-group manipulations.

& Ming Joo Koh

Dynamic stereomutation of vinylcyclopropanes with metalloradicals

A Ni (I) metalloradical catalyst enables reversible cis / trans -isomerization of vinylcyclopropanes under chiral inversion.

Marvin Mendel
, Teresa M. Karl
& Franziska Schoenebeck

Article | 17 June 2024

Catalytic glycosylation for minimally protected donors and acceptors

A glycosylation platform is demonstrated that enables selective coupling between a wide range of unprotected or minimally protected donor and acceptor sugars, producing 1,2- cis - O -glycosides in a catalyst-controlled, site-selective manner.

Qiu-Di Dang
, Yi-Hui Deng
& Dawen Niu

Article | 11 June 2024

A general strategy for the synthesis of taxane diterpenes

We describe a versatile synthetic strategy for making a range of taxanes belonging to the family of anticancer drug taxol using a single precursor.

, Fabian Schneider
& Tanja Gaich

Article | 06 June 2024

Unlocking carbene reactivity by metallaphotoredox α-elimination

Metal carbenes are accessed using a metallaphotoredox platform that exploits iron carbene reactivity using readily available chemical feedstocks and α-elimination.

Benjamin T. Boyle
, Nathan W. Dow
& David W. C. MacMillan

Article | 23 May 2024

Stereospecific alkenylidene homologation of organoboronates by S N V reaction

We report an S N V reaction, a rare nucleophilic substitution that involves electronically unbiased vinyl electrophiles, which allows the synthesis of cross-conjugated polyenes and bioactive compounds with multi-substituted alkenes.

, Christian D. Knox
& Guangbin Dong

Article | 02 May 2024

A deconstruction–reconstruction strategy for pyrimidine diversification

We present a synthetic method that transforms complex pyrimidine-containing structures into iminoenamines and then uses de novo heterocycle synthesis to obtain substituted pyrimidine and 1,2-azole analogues.

Benjamin J. H. Uhlenbruck
, Celena M. Josephitis
& Andrew McNally

Article | 01 May 2024

Stereoselective amino acid synthesis by photobiocatalytic oxidative coupling

We report on the oxidative cross-coupling of organoboron reagents and amino acids via pyridoxal biocatalysis to produce non-canonical amino acids, uncovering stereoselective, intermolecular free-radical transformations.

Tian-Ci Wang
, Binh Khanh Mai
& Yang Yang

News & Views | 03 April 2024

Trio of radicals choreographed for versatile chemical reaction

The idea that three different free radicals could be used together to carry out specific steps in a chemical reaction has long been implausible. A ‘radical sorting’ strategy now achieves this feat to make organic molecules.

Kenneth F. Clark
& John A. Murphy

Article | 28 March 2024

Copper-catalysed dehydrogenation or lactonization of C( sp 3 )–H bonds

Use of N -methoxyamides as oxidants enables controllable, redox-neutral, green catalysis of bimodal dehydrogenation/lactonization reactions with methanol as the only by-product.

Shupeng Zhou
, Zi-Jun Zhang
& Jin-Quan Yu

Research Briefing | 18 March 2024

‘Bandit’ algorithms help chemists to discover generally applicable conditions for reactions

In organic chemistry, finding conditions that enable a broad range of compounds to undergo a particular type of reaction is highly desirable. However, conventional methods for doing so consume a lot of time and reagents. A machine-learning method has been developed that overcomes these problems.

Article | 13 March 2024

Couple-close construction of polycyclic rings from diradicals

A couple-close approach used to build semisaturated ring systems from dual radical precursors allows sampling of regions of underexplored chemical space, leading to an annulation that can be used for late-stage functionalization of pharmaceutical scaffolds.

, Christian J. Oswood

Article | 28 February 2024

Symmetry breaking and chiral amplification in prebiotic ligation reactions

A study of a new route to proteinogenic peptides reveals how heterochiral preference can lead to homochiral peptides in a prebiotic world.

, Jinhan Yu
& Donna G. Blackmond

Article | 13 February 2024

Alkene dialkylation by triple radical sorting

We use bimolecular homolytic substitution catalysis to sort an electrophilic radical and a nucleophilic radical across an unactivated alkene, accelerating access to pharmaceutically relevant C( sp 3 )-rich molecules and defining a mechanistic approach for alkene dialkylation.

Johnny Z. Wang
, William L. Lyon

Article 31 January 2024 | Open Access

Stereodivergent 1,3-difunctionalization of alkenes by charge relocation

We introduce a method for the direct 1,3-difunctionalization of alkenes, based on a concept termed ‘charge relocation’, which enables stereodivergent access to 1,3-difunctionalized products of either syn - or anti -configuration from unactivated alkenes.

Bogdan R. Brutiu
, Giulia Iannelli
& Nuno Maulide

Where I Work | 15 January 2024

Giving thanks for a glovebox: helping to make medicines from natural substances

Richmond Sarpong wishes more people had access to the nitrogen-regulated device.

James Mitchell Crow

Nature Careers Podcast | 24 November 2023

How ChatGPT and sounds from space brought a ‘luminous jelly’ to life

Engineer-turned-artist Diana Scarborough and inorganic chemist Anna Melekhova describe how their art–science collaboration gave voice and form to a new material.

Julie Gould

Article | 01 November 2023

Carbon-to-nitrogen single-atom transmutation of azaarenes

A new type of transformation converting a heteroaromatic carbon atom into a nitrogen atom, turning quinolines into quinazolines to enable manipulation of molecular properties, is reported.

, Colin Stein
& Mark D. Levin

News & Views | 01 November 2023

Atom-swap chemistry could aid drug discovery

An unconventional route for modifying pharmaceutically relevant molecules swaps an atom of carbon for one of nitrogen. The resulting derivatives might open up avenues of research in medicinal-chemistry campaigns.

Filippo Ficarra
& Mattia Silvi

Article | 11 October 2023

Arenium-ion-catalysed halodealkylation of fully alkylated silanes

A new method is described that uses arenium-ion-catalysed halodealkylation of silanes with four alkyl groups, typically considered synthetic dead ends, to convert Me 4 Si and related quaternary silanes into orthogonally substituted (functionalized) silanes.

, Hendrik F. T. Klare
& Martin Oestreich

Article | 03 October 2023

Complex molecule synthesis by electrocatalytic decarboxylative cross-coupling

We report a radical-based Ni/Ag-electrocatalytic cross-coupling of substituted carboxylic acids, enabling an approach to accessing complex molecular architectures, which relies on a silver additive that forms an active Ag nanoparticle-coated electrode surface along with carefully chosen ligands.

Benxiang Zhang
, Jiayan He
& Phil S. Baran

News & Views | 27 September 2023

An all-organic laser that is electrically driven

An organic light-emitting diode has been integrated with an optically driven organic laser to produce laser light from electricity. The design bypasses many of the challenges posed by direct electrical input in such devices.

Stéphane Kéna-Cohen

Research Briefing | 20 September 2023

The chemical synthesis and anti-cancer properties of portimines

The natural toxins portimine A and B have attracted interest for their unusual chemical architecture and potent anti-cancer activity. The first total synthesis of portimines enables the identification of portimine A’s molecular target and reveals that the toxin induces programmed cell death in human cancer cells.

Article | 20 September 2023

A crystalline doubly oxidized carbene

The synthesis and isolation of a crystalline dication derived from a bis(imino)carbene through a two-electron oxidation/oxide-ion abstraction strategy is reported that bypasses the carbene radical cation, maintaining significant electrophilicity with two accessible vacant orbitals.

Ying Kai Loh
, Mohand Melaimi
& Guy Bertrand

Geminal-atom catalysis for cross-coupling

Heterogeneous geminal-atom catalysts, which pair single-atom sites in specific coordination and spatial proximity, offer a new avenue for the sustainable manufacture of fine chemicals.

, Yang Zheng
& Jiong Lu

Synthesis of portimines reveals the basis of their anti-cancer activity

A scalable total synthesis of portimines enables structural reassignment of portimine B and in-depth functional evaluation of portimine A, revealing that portimine A induces translation inhibition selectively in human cancer cells and is efficacious in vivo tumour-clearance models.

Junchen Tang
, Weichao Li

Article 06 September 2023 | Open Access

A catalytically active oscillator made from small organic molecules

We report a small-organic-molecule oscillator that catalyses an independent chemical reaction in situ without impairing its oscillating properties, allowing the construction of complex systems enhancing applications in automated synthesis and systems and polymerization chemistry.

Matthijs ter Harmsel
, Oliver R. Maguire
& Syuzanna R. Harutyunyan

Article | 06 September 2023

Hydrogen-bond-acceptor ligands enable distal C( sp 3 )–H arylation of free alcohols

Ligands enable alcohol-directed arylation of δ-C( sp 3 )–H bonds by stabilizing hydroxyl coordination to palladium through charge balance and hydrogen bonding.

Daniel A. Strassfeld
, Chia-Yu Chen

Article 23 August 2023 | Open Access

Light-enabled deracemization of cyclopropanes by Al-salen photocatalysis

Irradiation of chiral Al-salen complexes with violet light demonstrates efficient deracemization of cyclopropanes, enabling reactivity and enantioselectivity to be regulated simultaneously, negating the requirement for tailored catalyst–substrate recognition motifs.

Carina Onneken
, Tobias Morack
& Ryan Gilmour

Article | 05 July 2023

Regioselective aliphatic C–H functionalization using frustrated radical pairs

Regioselective functionalization of aliphatic carbon–hydrogen bonds is achieved using frustrated radical pairs generated from disilazide donors and an N -oxoammonium acceptor.

, Minsoo Ju
& Song Lin

Article | 26 June 2023

Functional-group translocation of cyano groups by reversible C–H sampling

Using light-based, reversible C−H sampling catalysis, a cyano functional group can be swapped with a C−H bond in a molecule, providing access to valuable structures that are difficult to obtain by other methods.

, Qingrui Zeng
& Yan Xu

News & Views | 19 June 2023

Rarely used strained molecules step up for organic synthesis

Energy released from molecules under strain can promote difficult chemical reactions. A practical method has been developed that uses an overlooked, highly strained compound to rapidly construct complex organic products.

Fahima I. M. Idiris
& Christopher R. Jones

Research Briefing | 14 June 2023

Nickel catalyses a host of chemical reactions in a general method

A minimal but general method has been developed for catalysing many different cross-coupling reactions — those in which two chemical fragments are joined. It requires only the two substrate substances, a nickel salt as a catalyst precursor, a catalyst for light-driven redox reactions and, in some cases, a nitrogen-containing base.

Article | 31 May 2023

Transannular C–H functionalization of cycloalkane carboxylic acids

Quinuclidine-pyridone and sulfonamide-pyridone ligands enable transannular γ-methylene C–H arylation of cycloalkane carboxylic acids with a range of ring sizes, bringing us closer to molecular editing of saturated carbocycles.

Guowei Kang
, Daniel A. Strassfeld

Article | 19 April 2023

Strain-promoted reactions of 1,2,3-cyclohexatriene and its derivatives

The strained C 6 H 6 isomer 1,2,3-cyclohexatriene and its derivatives participate in a host of reaction modes which demonstrate their potential for selective chemical transformations and provide an unconventional entryway to complex scaffolds.

Andrew V. Kelleghan
, Ana S. Bulger
& Neil K. Garg

Research Briefing | 05 April 2023

Enzyme-inspired catalyst helps to convert methane into methanol

A catalyst with a hydrophobic cavity that contains an active iron centre has been developed to convert methane into methanol. It has a ‘catch-and-release’ mechanism whereby a hydrophobic methane molecule enters the cavity for oxidation and the resulting hydrophilic methanol molecule is released into the surrounding aqueous solution.

Article | 04 April 2023

General access to cubanes as benzene bioisosteres

The synthesis of 1,3- and 1,2-disubstituted cubanes is achieved using a cyclobutadiene precursor and a photolytic carboxylation reaction, respectively, and copper-catalysed amination, arylation, alkylation and trifluoromethylation reactions have been developed enabling the use of cubanes as bioisosteres of benzenes in drug design.

Mario P. Wiesenfeldt
, James A. Rossi-Ashton

Article | 30 March 2023

Copper-catalysed enantioconvergent alkylation of oxygen nucleophiles

The enantioconvergent alkylation of oxygen nucleophiles is achieved using α-haloamides and a readily available copper catalyst, and the reaction proceeds under mild conditions in the presence of a wide variety of functional groups.

Caiyou Chen
& Gregory C. Fu

Article | 20 March 2023

Enantioconvergent Cu-catalysed N -alkylation of aliphatic amines

The chemoselective and enantioconvergent N -alkylation of aliphatic amines, including ammonia, is achieved using chiral tridentate anionic ligands and a copper catalyst; the method shows excellent enantioselectivity and functional-group tolerance.

Ji-Jun Chen
, Jia-Heng Fang
& Xin-Yuan Liu

Article 15 March 2023 | Open Access

Control of stereogenic oxygen in a helically chiral oxonium ion

The design, synthesis and characterization of a helically chiral triaryloxonium ion is reported, which is an example of a chiral non-racemic and configurationally stable molecule in which the oxygen atom is the sole stereogenic centre.

, Mihai V. Popescu
& Martin D. Smith

Article | 14 February 2023

Enantioselective transition-metal catalysis via an anion-binding approach

Chiral hydrogen-bond donors bind anions of organometallic catalysts to achieve enantiocontrol and reaction-rate enhancement through ion pairing together with other non-covalent interactions.

John M. Ovian
, Petra Vojáčková

News | 01 February 2023

The surprising chemicals used to embalm Egyptian mummies

Resins used to prepare bodies for the afterlife are found in vessels in an ancient workshop.

Ewen Callaway

News & Views | 25 January 2023

Machine learning classifies catalytic-reaction mechanisms

The study of how chemical reactions work is key to the design of new reactions, but relies on hard work and expert knowledge. A machine-learning tool has been developed that could change the way this challenge is approached.

Danilo M. Lustosa
& Anat Milo

Article | 25 January 2023

Organic reaction mechanism classification using machine learning

Mechanistic elucidation through currently available kinetic analysis is limited by mathematical approximations and human interpretation, here a deep neural network model has been trained to analyse ordinary kinetic data and automatically elucidate the corresponding mechanism class.

Jordi Burés
& Igor Larrosa

Article | 05 January 2023

Electrochemical reactor dictates site selectivity in N -heteroarene carboxylations

An electrochemical strategy is described in which the direct carboxylation of pyridines and related N -heteroarenes with CO 2 shows divergent site selectivity depending on the type of reactor used.

Guo-Quan Sun

Research Highlight | 09 December 2022

Tinkering with molecular ‘backbones’ holds promise for drug discovery

A method to edit the backbones of molecules allows chemists to modify ring-shaped chemical structures with greater ease.

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ACS Publications

28 Must-Read Topics in Chemistry

Mar 4, 2021
14 min read

Browse 28 of the most important, engaging topics in chemistry with Virtual Collections released by ACS Publications journals in Q4 2020.

hot research topics in organic chemistry

ACS Publications regularly produces collections of the most important chemistry research topics. These Virtual Collections of the most important chemistry research topics bring together the most important ideas in the field in a variety of ways, including Special Issues and ACS Selects from across the portfolio journals. These collections reflect the most important chemistry research topics of current scientific interest and are designed for experienced investigators and educators alike.

Browse 28 of the most important, engaging topics in chemistry with Virtual Collections released by ACS Publications journals in Q4 2020:

Crystalline Molecular Materials: From Structure to Function

This Virtual Special Issue focuses on the design and study of materials wherein the target properties arise from, or are enhanced by, the three-dimensional assembly of molecules in a solid phase. The “structure−function” relationship transcends the nature of the individual molecule, and supramolecular organization is a key component in the material’s properties. The goal of this issue is to assemble contributions from a broad community of scientists with similar research interests, as defined by the need to understand and manipulate the bulk assembly of molecules. Placing emphasis on a common interest in supramolecular architecture, this issue showcases work in apparently disparate fields, including molecule-based magnetism, rare zero thermal expansion properties, and catalytic activity.

Read the Issue. ***

Materials for Thermoelectric Energy Conversion

This virtual issue of ACS Applied Materials & Interfaces and ACS Applied Energy Materials presents cutting edge articles in the field of Thermoelectric Energy Conversion. Thermoelectric materials and devices are central for energy conversion and management as they convert waste heat into electricity. Given the ubiquitous nature of heat, thermoelectric materials provide total-package solutions to mitigate environmental crisis and energy needs. The realization of this has caused a surge in the development of high-performance, environmentally benign, robust, and earth-abundant inorganic materials, which can be used in heat to electrical energy generations in power plants, space, automobiles, households, battery technology, and data centers. Interestingly, flexible thermoelectric materials, mainly based on organic/polymer materials, have successfully been integrated into body-worn fabrics and watches, which simply utilize body heat to generate electricity. Furthermore, using the Peltier effect, thermoelectric coolers are developed and are one of the mainstays in the consumer market for refrigeration purposes, especially for portable applications. Hence, thermoelectricity is foreseen as a potential frontrunner in energy management for the near future.

Interfacialscience Developments at the Chinese Academy of Sciences

This virtual issue is a sampling of some of the most recent work from the Chinese Academy of Sciences, with an emphasis on work from this year (2020) so far. The 46 articles in this virtual issue cover a broad range of research topics, examples of which include Janus particle engineering and interfacial assembly, surface modification of colloid particles, stability of water monolayer in mineral under high pressure, nano-bubbles adsorption on surface, switching of underwater superhydrophilicity and superoleophobicity, nanostructured de-icing surface, lithium ion battery anode binder, bio-inspired smart liquid directional transport control, corrosion resistance of alloys, behavior of polymers at solid/liquid interface, and effect of polymer conformation on protein resistance.

Celebrating 90% Completion of the Human Proteome

Twenty years after the establishment of the international Human Proteome Organization (HUPO) and ten years after its launch of the Human Proteome Project (HPP), researchers have much to celebrate. Today, HUPO will release the draft human proteome at the 19th Human Proteome Organization World Congress, connecting virtually, with this Virtual Issue published in the Journal of Proteome Research.

Read the Issue . ***

Nanomaterials-based Membranes for Chemical Separations

Membranes are a critical area of research in academia and have been used in industrial applications for decades. Membrane-based separations are desired in industry because they can be highly energy efficient and up to an order of magnitude less expensive than other techniques such as distillation. In addition, these separations are easily scaled to industrial levels so that advances in the laboratory can be translated to real applications. The key challenges in this field are how to separate chemicals with similar sizes by having a high flux for only one chemical through a membrane. This difference in flux should translate into a high selectivity for one chemical over one or more other chemicals present in a mixture. An unfortunate trade-off in membrane-based separations is that as the permeation of a chemical increases, the selectivity of the membrane will often decrease. To address these challenges, scientists often use cross-linked polymers with ill-defined pores, hard materials such as zeolites with well-defined pores, 2D materials, coated nanofibers, carbon nanotubes, metal nanoparticles, or other nanomaterials.

Organic Chemistry in China: Synthetic Methodology, Natural Products, and More

During the past 20 years, China has become a powerhouse in chemistry research, now leading globally in submissions of research articles to chemical journals. In recognizing these developments, Organic Letters presents a Virtual Issue that includes a collection of 25 research articles contributed by Chinese chemists during 2019-2020, selected from among the more than 1,000 articles published in the journal from China over this period.

Advances in Microfluidics Research

This Virtual Issue highlights articles published in Analytical Chemistry that showcase advances in microfluidics research over the past several years. The articles below are separated by sub-field and span research on virus detection to cell manipulation to 3D-printing, and are all at the cutting edge of microfluidics technologies. The thirty articles included in this collection were selected by Associate Editor Yoshinobu Baba and include previous winners of the Chemical & Biological Microsystems Society (CBMS)/ Analytical Chemistry co-sponsored Young Innovator Award.

Chemistry in Korea: IBS and Beyond

This virtual issue of “Chemistry in Korea: IBS and Beyond” highlights the latest contributions from eight IBS centers along with exciting advances from other emerging scientists in South Korea. Topics encompass a wide range of chemistry and its cross-boundary researches from theory and simulations, nanomaterials, molecular synthesis, catalysts, spectroscopy, supramolecular chemistry, soft materials to nanomedicine.

Highlighting Analytical Chemistry 2020 Advisory Board Members

The members of Analytical Chemistry ‘s Editorial Advisory Board (EAB) and Early Career Board (ECB) panels devote substantial voluntary time and energy to support Analytical Chemistry and deserve special recognition for their contributions. In recognition of their service, this new virtual issue is dedicated to the members of both the journal’s EAB and ECB, with each selecting one of their recent Analytical Chemistry articles to highlight.

A Bright New World of Ferroelectrics: Magic of Spontaneous Polarization

Ferroelectric materials featured with spontaneous polarization have experienced a century of vigorous development. The permanent electric dipole moment makes ferroelectric an outstanding multifunctional material for a wide range of applications. Ferroelectrics with unique coupling effects among electric, optical, mechanical, thermal, and magnetic orders, have been developed for a wide range of functional devices and triggered a new world-wide wave of ferroelectric research. This virtual issue highlights some of the key state-of-the-art findings in ferroelectrics published in ACS Applied Materials & Interfaces and ACS Applied Electronic Materials , and the editorial attempts to reflect the rapid development and provide a perspective in this field.

Peter J. Rossky Festschrift

This Virtual Special Issue honors Professor Peter J. Rossky and his contributions to the field of physical chemistry.

Computational and Experimental Advances in Biomembranes

As an integral component of cellular architecture and signalling, cell membranes are central to cell physiology. Comprising a vastly heterogeneous mixture of proteins and lipids, cell membranes are constantly adapting their structural organization to regulate cellular processes. Malfunction at the level of lipid-protein interaction is implicated in numerous diseases, and hence, understanding cell membrane organization at the molecular level is of critical importance. The collection of articles in this Virtual Special Issue from The Journal of Physical Chemistry B provides a survey of the advances in both computational and experimental characterization of the complex processes underlying the behavior of cellular membranes.

Sensors and Industry

In this virtual issue, ACS Sensors and Analytical Chemistry highlight 30 of these outstanding industrial co-authored papers recently published in the two journals. The breadth of the articles in this collection emphasizes the incredible research on diagnostic methods being performed in both universities and industries, and highlights the benefits of collaboration between the two. Read the Issue . ***

Machine Learning in Physical Chemistry

Physical chemistry stands today at an exciting transition state where the integration of machine learning and data science tools into all corners of the field is poised to do nothing short of revolutionizing the discipline. These powerful techniques – when appropriately combined with domain knowledge, tools, and expertise – have led to new physical insights, better understanding, accelerated discovery, rational design, and inverse engineering that transcend traditional approaches to materials, molecular, and chemical science and engineering. This collection of nearly 150 manuscripts from The Journal of Physical Chemistry A / B / C and The Journal of Physical Chemistry Letters reflects the relevance and popularity of this topic in physical chemistry by both the depth and breadth of excellent articles in this exciting collection.

Self-Healing Materials

This is a spotlight on applications discusses developments made over the last six years that have enabled the fabrication of increasingly high-performance spray-coated perovskite solar cells. In particular, the various approaches adopted to spray-cast perovskite films (one-step vs two-step processes) ware charted and the development of sophisticated techniques used to control thin-film crystallinity is described. Finally, remaining research challenges are discussed that, once solved, may allow the mass deployment of low-cost solar energy.

Women in Mass Spectrometry

This virtual issue was assembled to feature talented women mass spectrometrists who publish in JASMS as the corresponding author. The articles compiled are among the most highly cited that were published in the journal in the last 5 years, regardless of gender, and are representative of the best mass spectrometry science reported in JASMS .

In Memory of Mario Molina (1943-2020)

Mario Molina was a Mexican chemist who shared the 1995 Nobel Prize in chemistry with the late F. Sherwood Rowland of UC Irvine and Paul Crutzen of the Max Planck Institute for Chemistry in Mainz “for their work in atmospheric chemistry particularly concerning the formation and decomposition of ozone.” Molina passed away in his birth city of Mexico City at age 77 on 7 October 2020. A physical chemist at heart, Molina published about 80 papers in The Journal of Physical Chemistry . His mentees remember him by celebrating 30 of them. His indelible legacy lives on through his publications, his collaborators, the scholars that he trained, the innovations in experimental design he made, the thousands who were inspired and informed by his science communication, and the millions whose quality of life improved thanks to his work on stratospheric ozone depletion and air quality in megacities.

Women Scientists at the Forefront of Energy Research: A Virtual Issue, Part 3

This is the third part of a series that recognizes women energy researchers who have published new advances from their laboratories in ACS Energy Letters . The inspirational stories and advice to newcomers in the field contained in this issue should provide motivation to advance the scientific research in energy conversion and storage. Through their personal reflections, these researchers discuss the successful career paths they have taken to become leaders in the scientific community.

Scalable Organic Chemistry: A Virtual Issue to highlight Organic Process Research & Development

From small-scale use in academic research to large-scale application in industrial processes, only select chemistries make the cut to be relevant throughout the scale-up process. This virtual issue showcases a collection of innovative and industrially-relevant papers on key topics from academic and industrial chemists in Organic Process Research & Development .

Virtual Issue in Memoriam of Dr. Alan Poland (1940-2020)

Dr. Alan Poland was a major influence on the development of modern molecular toxicology and the understanding of how chemicals cause cancer. He is most widely known for his groundbreaking work to explain the adverse effects of dioxins, chemicals and related environmental pollutants.

Deep Eutectic Solvents

This virtual issue focuses on scientific and engineering advances related to Deep Eutectic Solvents. It includes papers that have appeared in the last two years in ACS Sustainable Chemistry & Engineering , Industrial & Engineering Chemistry Research , Journal of Chemical & Engineering Data , and Journal of Physical Chemistry B and C .

Celebrating ACS Sensors ‘ Editorial Advisory Board

Metal-Organic Frameworks: Fundamental Study and Applications

Exciting developments in metal-organic frameworks (MOFs) are the focus of this Virtual Issue that is jointly produced by Langmuir and ACS Applied Materials & Interfaces ( ACS AMI ). These two journals publish complementary and ground-breaking work on interfacial science. ACS AMI has a strong focus on practical applications whereas Langmuir encourages reports of both fundamental and applied nature, when rational design is a highlighted feature of the work.

Inorganic Synthesis in Uncommon Reaction Media

Water and organic solvents have long been the most common reaction media for chemical synthesis. Nevertheless, given limits in solubility and the need for extreme temperatures sometimes, especially for inorganic substances, chemists have had a growing interest in moving to “uncommon” reaction media to improve the access to certain compounds or to permit the fundamental study of the behavior of chemicals under unique conditions. In this Virtual Issue, “Inorganic Synthesis in Uncommon Reaction Media,” Guest Editor Julia Chan and Associate Editor Stefanie Dehnen highlight recent reports from Inorganic Chemistry and additionally from Chemistry of Materials and Crystal Growth & Design that feature reactions taking place in currently used uncommon systems: molten metals (metal flux), molten salts (nonmetal flux), ionic liquids (ionothermal if carried out under elevated temperatures), supercritical solvents (solvothermal), and liquefied gases.

The Challenge of Antibacterial Drug Permeation and Current Advances

Recent advances in the area of drug permeation feed the pipeline of antibacterial agents with new and improved activities and keep the ever-changing landscape of antibiotic resistance effectively managed by small molecule therapeutics. The articles included in this Virtual Issue broadly represent three areas of research: 1) new experimental approaches to analyze intracellular accumulation of compounds in whole cells and compound permeation across model membranes; 2) new computational models of drug permeation across the outer membrane and integrated kinetic models of drug permeation across membranes with active efflux; and 3) new antibiotic screening campaigns and exploration of synergistic drug combinations bypassing bacterial permeation barriers.

Organic Chemistry in Japan: A Strong Foundation and Honorable Tradition

Organic chemistry has a strong foundation and honorable tradition in Japan, centering in recent decades predominantly on the development of synthetic methodologies, particularly in an interdisciplinary fashion focusing on cross-coupling and C-H activation and functionalization, the total synthesis of natural products, chemical biology research, supramolecular chemistry, and applications of (opto)electronic materials—all with an eye toward fostering international collaborations. This new Organic Letters Virtual Issue features 25 selected articles form 2019-2020 to highlight these achievements.

This virtual issue in Environmental Science & Technology ( ES&T ) marks the 50-year anniversary of the United States Environmental Protection Agency (US EPA). Recognizing this significant milestone brings an opportunity to reflect on the enormous achievements and impact this federal agency has had on the remediation and protection of the environment, reaching both domestically within the USA and globally since its official beginnings on December 2nd, 1970.

Bioconjugate Chemistry 30th Anniversary Reviews

The breadth and impact of these 30th anniversary reviews demonstrate how the Bioconjugate Chemistry of today continues the forward-looking embrace of new science and systems while maintaining the old-fashioned virtues of scientific rigor and reproducibility.

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ACS Applied Energy Materials

Important Current Research Topics in Organic Synthesis

This guide is intended to list some topics for Organic Chemists that one might specialize in:

Sustainable and Green Chemistry: The development of more environmentally friendly and sustainable methods for synthesizing organic molecules is an important area of research. This includes the use of renewable resources, catalysts, and solvents that minimize waste and reduce energy consumption.

New Methods for C-H Bond Functionalization: Functionalizing C-H bonds directly, rather than relying on pre-functionalized starting materials, is an emerging area of research. This can simplify synthetic routes and reduce waste.

Synthesis of Complex Molecules: The development of new synthetic strategies and methods for the efficient and selective synthesis of complex molecules, such as natural products and pharmaceuticals, remains an active area of research.

Enantioselective Catalysis: The development of new chiral catalysts and strategies for enantioselective synthesis is an important area of research. This includes the development of new organocatalysts, metal catalysts, and biocatalysts.

Photochemistry: The use of light to drive organic reactions is an emerging area of research. This includes the development of photochemical reactions that are greener and more efficient than traditional thermal methods.

Bioconjugation: The development of new methods for conjugating organic molecules to biomolecules is an important area of research. This includes the development of methods for site-selective conjugation and the design of new bioconjugates for drug delivery and diagnostics.

Total Synthesis of Natural Products: The synthesis of complex natural products remains a major goal of organic synthesis. Advances in synthetic methodology and techniques for complex molecule synthesis are driving progress in this area.

Flow Chemistry: The use of continuous flow reactors for organic synthesis is an emerging area of research. This approach can offer advantages in terms of reaction efficiency, product purity, and scalability.

50 Research Ideas in Organic Chemistry

Unlocking the Potential: 50 Intriguing Organic Chemistry Research Ideas

In the world of science, organic chemistry is like the hidden language of life. It’s the study of carbon and its dance with other elements to create everything from medicines that heal to materials that make our world. Today, iLovePhD delves into 50 intriguing research ideas in this fascinating field, uncovering the secrets and innovations that drive progress in science.

50 Intriguing Organic Chemistry Research Ideas

Green Synthesis of Organic Compounds : Explore eco-friendly methods for synthesizing organic molecules.
Applications of Organometallic Chemistry : Discuss the use of organometallic compounds in catalysis and materials science.
Designing Sustainable Polymers : Investigate the development of biodegradable and recyclable polymers.
Catalytic Asymmetric Synthesis : Examine recent advances in creating chiral organic compounds.
Supramolecular Chemistry in Drug Design : Discuss how non-covalent interactions can be harnessed for drug discovery.
Functionalization of C-H Bonds : Explore methods for selectively functionalizing carbon-hydrogen bonds.
Natural Product Synthesis : Highlight recent total syntheses of complex natural products.
Electroorganic Chemistry : Discuss the use of electricity as a reagent in organic reactions.
Molecular Machines : Explore the design and applications of synthetic molecular machines.
Metal-Organic Frameworks (MOFs) : Investigate the use of MOFs in gas storage and separation.
Enzyme Mimicry in Catalysis : Discuss synthetic catalysts that mimic enzyme behavior.
Chemical Biology : Explore the interface between chemistry and biology for drug discovery.
Organic Photovoltaics : Discuss the development of organic materials for solar cells.
Peptide Chemistry : Investigate the synthesis and applications of peptides in drug design.
Click Chemistry : Highlight the versatility of click reactions in organic synthesis.
Chemoinformatics : Discuss the use of computational methods in organic chemistry.
Bioorthogonal Chemistry : Explore reactions that are compatible with living systems.
Green Solvents in Organic Synthesis : Examine environmentally friendly solvents for organic reactions.
Nanocatalysis : Discuss the role of nanoparticles in catalytic processes.
Fluorine Chemistry : Investigate the unique properties of fluorinated organic compounds.
Carbohydrate Chemistry : Explore the synthesis and functions of carbohydrates.
Chemical Sensors : Discuss the design of organic sensors for detecting analytes.
Synthetic Biology : Explore the engineering of biological systems for chemical production.
Organic Chemistry in Medicine : Highlight the role of organic chemistry in drug development.
Heterocyclic Chemistry : Investigate the synthesis and reactivity of heterocycles.
Chemistry of Aromatics : Discuss reactions and applications of aromatic compounds.
Polycyclic Aromatic Hydrocarbons (PAHs) : Explore the environmental and health impact of PAHs.
Green Extraction Methods : Investigate eco-friendly techniques for extracting natural products.
Organic Chemistry in Food : Discuss the chemistry behind food flavor and preservation.
Chemistry of Natural Dyes : Explore the use of organic compounds as dyes.
Artificial Sweeteners : Investigate the chemistry of sugar substitutes.
Chemistry of Medicinal Plants : Highlight the organic compounds found in medicinal plants.
Organic Synthesis with Flow Chemistry : Discuss continuous-flow methods in organic synthesis.
Stereochemistry : Explore the importance of stereochemistry in organic reactions.
Chirality in Pharmaceuticals : Discuss the role of chirality in drug design.
Green Chemistry Metrics : Investigate metrics for assessing the sustainability of organic reactions.
Photochemistry : Explore the use of light in driving organic reactions.
Chemistry of Natural Toxins : Highlight the structures and effects of natural toxins.
Chemistry of Pharmaceuticals : Discuss the synthesis and mechanisms of action of common drugs.
Organic Chemistry in Cosmetics : Explore the chemistry of cosmetic products.
Organic Chemistry in Art Conservation : Investigate the role of organic chemistry in preserving artworks.
Radical Chemistry : Discuss the use of radicals in organic synthesis.
Chemistry of Terpenes : Explore the diverse structures and functions of terpenes.
Organic Chemistry of Vitamins : Highlight the organic compounds essential for health.
Biocatalysis : Discuss the use of enzymes in organic synthesis.
Chemistry of Lipids : Investigate the structure and functions of lipids.
Chemistry of Amino Acids : Explore the building blocks of proteins.
Chemistry of DNA : Discuss the structure and chemical properties of DNA.
Nucleic Acid Chemistry : Investigate the synthesis and modification of nucleic acids.
Organic Chemistry in Environmental Remediation : Highlight the use of organic compounds for cleaning up pollutants.

In closing, organic chemistry isn’t just about molecules; it’s about endless possibilities. These 50 research ideas showcase the diverse avenues researchers explore , from green synthesis to life-saving drugs. As we continue to unravel the mysteries of carbon, we can look forward to a future where science and innovation walk hand in hand, shaping a brighter world for us all.

Aromatic chemistry
Biocatalysis
Bioorthogonal reactions
Carbon compounds
Catalysis Sustainable polymers
Chiral compounds Chemical biology
Click chemistry Computational chemistry
DNA chemistry
Drug discovery
Environmental remediation
Flow chemistry Stereochemistry
Green metrics
Green solvents
Green synthesis
Nanocatalysis Heterocyclic compounds
Organic Chemistry
Organic photovoltaics
Peptide synthesis
Photochemistry
Research Ideas
Supramolecular chemistry
Terpenes Vitamins

List of Research Topics in Environmental Engineering

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Physical Chemistry Chemical Physics

Unveiling mof-808 photocycle and its interaction with luminescent guests †.

* Corresponding authors

a Department of Physics and Chemistry “Emilio Segrè”, University of Palermo, Via Archirafi 36, 90123 Palermo, Italy E-mail: [email protected] , [email protected]

b TUM School of Natural Sciences, Technical University of Munich Lichtenbergstr. 4, 85748 Garching b. München, Germany

c Université Jean Monnet, CNRS, IOGS, Laboratoire Hubert Curien UMR 5516, 42000 Saint-Etienne, France

d EastChem School of Chemistry, University of St Andrews, North Haugh, St Andrews, UK

The world of metal–organic frameworks (MOFs) has become a hot topic in recent years due to the extreme variety and tunability of their structures. There is evidence of MOFs that exhibit intrinsic luminescence properties that arise directly from their organic components or from the interaction between them and metallic counterparts. A new perspective is to exploit the porous nature of MOFs by encapsulating luminescent guests, such as organic dyes, in order to explore possible changes in the luminescence activity of the combined systems. This work is focused on the optical study of zirconium-based MOF-808 and its interaction with encapsulated rhodamine B molecules. Using a plethora of different techniques, we were able to unravel its photocycle. MOF-808 displays intrinsic luminescence activity that derives from an energy transfer process from the linker to the metal sites occurring in 300 ps. The emission is a singlet–singlet transition in aqueous solution, and it is a triplet transition in powdered form. After exploring the bare MOF, we combined it with rhodamine B molecules, following an easy post-synthetic process. Rhodamine B molecules were found to be encapsulated in MOF pores and interact with the MOF's matrix through nanosecond energy transfer. We created a totally new dual-emitting system and suggested a way, based on the time-resolved studies, to clearly unravel the photocycle of MOFs from the very first photoexcitation.

Graphical abstract: Unveiling MOF-808 photocycle and its interaction with luminescent guests

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Unveiling MOF-808 photocycle and its interaction with luminescent guests

G. Ficarra, A. Sciortino, L. G. Barbata, R. Ettlinger, V. De Michele, E. Marin, M. Cannas, R. E. Morris and G. Buscarino, Phys. Chem. Chem. Phys. , 2024, Advance Article , DOI: 10.1039/D4CP02279C

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100+ Great Chemistry Research Topics

Table of contents

1 5 Tips for Writing Chemistry Research Papers
2 Chemical Engineering Research Topics
3 Organic Сhemistry Research Topics
4 Іnorganic Сhemistry Research Topics
5 Biomolecular Сhemistry Research Topics
6 Analytical Chemistry Research Topics
7 Computational Chemistry Research Topics
8 Physical Chemistry Research Topics
9 Innovative Chemistry Research Topics
10 Environmental Chemistry Research Topics
11 Green Chemistry Research Topics
12.1 Conclusion

Do you need a topic for your chemistry research paper? Are you unsure of where to start? Don’t worry – we’re here to help. In this post, we’ll go over a series of the best chemistry research paper topics as well as Tips for Writing Chemistry Research Papers on different topics. By the time you finish reading this post, you’ll have plenty of ideas to get started on your next research project!

There are many different subfields of chemistry, so it can be tough to find interesting chemistry topics to write about. If you’re struggling to narrow down your topic, we’ll go over lists of topics in multiple fields of study.

Doing research is important to help scientists learn more about the world around us. By researching different compounds and elements, we can learn more about how they interact with one another and how they can be used to create new products or improve existing ones.

There are many different topics that you can choose to research in chemistry. Here are just a few examples:

The history of chemistry and how it has evolved over time
How different chemicals react with one another
How to create new compounds or improve existing ones
The role of chemistry in the environment
The health effects of different chemicals

5 Tips for Writing Chemistry Research Papers

Once you have chosen a topic for your research paper , it is important to follow some tips to ensure that your paper is well-written and accurate. Here are a few tips to get you started:

Start by doing some background research on your topic. This will help you understand the basics of the topic and give you a good foundation to build your paper on.
Make sure to cite all of the sources that you use in your paper. This will help to show where you got your information and will also help to add credibility to your work.
Be sure to proofread your paper before you submit it. This will ensure that there are no errors and that your paper is clear and concise.
Get help from a tutor or friend if you are struggling with your paper. They may be able to offer helpful advice or feedback.
Take your time when writing your research paper . This is not a race, and it is important to make sure that you do a good job on your research.

By following these tips, you can be sure that your chemistry research paper will be a success! So what are you waiting for? Let’s go over some of the best research paper topics out there.

Chemical Engineering Research Topics

Chemical Engineering is a branch of engineering that deals with the design and application of chemical processes. If you’re wondering how to choose a paper topic, here are some ideas to inspire you:

How to create new alloy compounds or improve existing ones
The health effects of the food industry chemicals
Chemical engineering and sustainable development
The future of chemical engineering
Chemical engineering and the food industry
Chemical engineering and the pharmaceutical industry
Chemical engineering and the cosmetics industry
Chemical engineering and the petrochemical industry
Biocompatible materials for drug delivery systems
Membrane technology in water treatment
Development of synthetic fibers for industrial use

These are just a few examples – there are many more possibilities out there! So get started on your research today. Who knows what you might discover!

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Organic Сhemistry Research Topics

Organic chemistry is the study of carbon-containing molecules. There are many different organic chemistry research topics that a student could choose to focus on and here are just a few examples of possible research projects in organic chemistry:

Investigating new methods for synthesizing chiral molecules
Studying the structure and reactivity of carbon nanotubes
Investigating metal complexes with organometallic ligands
Designing benzene derivatives with improved thermal stability
Exploring new ways to control the stereochemistry of chemical reactions
Studying the role of enzymes in organic synthesis
Investigating new strategies for combating drug resistance
Developing new methods for detecting explosives residues
Studying the photochemistry of organic molecules
Studying the behavior of organometallic compounds in biological systems
Synthetic routes for biodegradable plastics
Catalysis in organic synthesis
Development of non-toxic solvents

Іnorganic Сhemistry Research Topics

Inorganic Chemistry is the study of the chemistry of materials that do not contain carbon. Unlike other chemistry research topics, these include elements such as metals, minerals, and inorganic compounds. If you are looking for inorganic chemistry research topics on inorganic chemistry, here are some ideas to get you started:

How different metals react with one another
How to create new alloys or improve existing ones
The role of inorganic chemistry in the environment
Rare earth elements and their applications in electronics
Inorganic polymers in construction materials
Photoluminescent materials for energy conversion
Inorganic chemistry and sustainable development
The future of inorganic chemistry
Inorganic chemistry and the food industry
Inorganic chemistry and the pharmaceutical industry
Atomic structure progressive scale grading
Inorganiс Сhemistry and the cosmetics industry

Biomolecular Сhemistry Research Topics

Biomolecular chemistry is the study of molecules that are important for life. These molecules can be found in all living things, from tiny bacteria to the largest animals. Researchers who work in this field use a variety of techniques to learn more about how these molecules function and how they interact with each other.

If you are looking for essential biomolecular chemistry research topics, here are some ideas to get you started:

The structure and function of DNA
Lipidomics and its applications in disease diagnostics
The structure and function of proteins
The role of carbohydrates in the body
The role of lipids in the body
How enzymes work
Protein engineering for therapeutic applications
The role of biochemistry in heart disease
Cyanides and their effect on the body
The role of biochemistry in cancer treatment
The role of biochemistry in Parkison’s disease treatment
The role of biochemistry in the immune system
Carbohydrate-based vaccines

The possibilities are endless for someone willing to dedicate some time to research.

Analytical Chemistry Research Topics

Analytical Chemistry is a type of chemistry that helps scientists figure out what something is made of. This can be done through a variety of methods, such as spectroscopy or chromatography. If you are looking for research topics, here are some ideas to get you started:

How food chemicals react with one another
Mass spectrometry
Microplastics detection in marine environments
Development of sensors for heavy metal detection in water
Analytical aspects of gas and liquid chromatography
Analytical chemistry and sustainable development
Atomic absorption spectroscopy methods and best practices
Analytical chemistry and the pharmaceutical industry in Ibuprofen consumption
Analytical chemistry and the cosmetics industry in UV protectors
High-throughput screening methods in pharmaceutical analysis
Dispersive X-ray analysis of damaged tissues

Analytical chemistry is considered by many a complex science and there is a lot yet to be discovered in the field.

Computational Chemistry Research Topics

Computational chemistry is a way to use computers to help chemists understand chemical reactions. This can be done by simulating reactions or by designing new molecules. If you are looking for essential chemistry research topics in computational chemistry, here are some ideas to get you started:

Molecular mechanics simulation
Machine learning applications in predicting molecular properties
Reaction rates of complex chemical reactions
Designing new molecules: how can simulation help
The role of computers in the study of quantum mechanics
How to use computers to predict chemical reactions
Using computers to understand organic chemistry
The future of computational Chemistry in organic reactions
The impacts of simulation on the development of new medications
Combustion reaction simulation impact on engine development
Quantum-chemistry simulation review
Simulation of protein folding and misfolding in diseases
Development of algorithms for chemical synthesis planning
Applications of Metal-Organic Frameworks in water sequestration and catalysis

Computers are cutting-edge technology in chemical research and this relatively new field of study has a ton yet to be explored.

Physical Chemistry Research Topics

Physical chemistry is the study of how matter behaves. It looks at the physical and chemical properties of atoms and molecules and how they interact with each other. If you are looking for physical chemistry research topics, here are some ideas to get you started:

Standardization of pH scales
Structure of atom on a quantum scale
Bonding across atoms and molecules
The effect of temperature on chemical reactions
The role of light in in-body chemical reactions
Chemical kinetics
Molecular dynamics in confined spaces
Quantum computing for solving chemical problems
Studies on non-Newtonian fluids in industrial processes
Surface tension and its effects on mixtures
The role of pressure in chemical reactions
Rates of diffusion in gases and liquids
The role of entropy in chemical reactions

Here are just a few samples, but there are plenty more options! Start your research right now!

Innovative Chemistry Research Topics

Innovative chemistry is all about coming up with new ideas and ways to do things. This can be anything from creating new materials to finding new ways to make existing products. If you are looking for ground-breaking chemistry research topics, here are some ideas to get you started:

Amino acids side chain effects in protein folding
Chemistry in the production of nanomaterials
The role of enzymes in chemical reactions
Photocatalysis in 3D printing
Avoiding pesticides in agriculture
Combining chemical and biological processes
Gene modification in medicinal chemistry
The role of quantum mechanics in chemical reactions
Astrochemical research on extraterrestrial molecules
Spectroscopy signatures of pressurized organic components
Development of smart materials with responsive properties
Chemistry in space: studying chemical reactions in microgravity
Utilization of CO2 in chemical synthesis
Use of black soldier fly carcasses for bioplastic production using extracted chitin
Bioorthogonal chemistry for molecule synthesis inside living systems

If you need a hand, there are several sites that also offer research papers for sale and can be a great asset as you work to create your own research papers.

Whatever route you decide to take, good luck! And remember – the sky’s the limit when it comes to research! So get started today and see where your studies may take you. Who knows, you might just make a breakthrough discovery!

Environmental Chemistry Research Topics

Environmental Chemistry is the study of how chemicals interact with the environment. This can include anything from the air we breathe to the water we drink. If you are looking for environmental chemistry research topics, here are some ideas to get you started:

Plastic effects on ocean life
Urban ecology
The role of carbon in climate change
Air pollution and its effects
Water pollution and its effects
Chemicals in food and their effect on the body
The effect of chemicals on plant life
Earth temperature prediction models
Effects of pharmaceuticals in aquatic environments
Atmospheric chemistry and urban air quality
Bioremediation techniques for oil spill cleanup
Regulatory and environmental impact of Per- and Polyfluoroalkyl (PFA) substances
Comparison of chemical regulation impacts like PFA with historical cases such as lead in fuel

A lot of research on the environment is being conducted at the moment because the environment is in danger. There are a lot of environmental problems that need to be solved, and research is the key to solving them.

Green Chemistry Research Topics

Green chemistry is the study of how to make products and processes that are environmentally friendly. This can include anything from finding new ways to recycle materials to developing new products that are biodegradable. If you are looking for green chemistry research topics, here are some ideas to get you started:

Recycling and reuse of materials
Developing biodegradable materials
Improving existing recycling processes
Green chemistry and sustainable development
The future of green chemistry
Green chemistry and the food industry
Lifecycle assessment of chemical processes
Green chemistry and the pharmaceutical industry
Development of catalysts for green chemistry
Green chemistry and the cosmetics industry
Alternative energy sources for chemical synthesis

A more environmentally friendly world is something we all aspire for and a lot of research has been conducted on how we can achieve this, making this one of the most promising areas of study. The results have been varied, but there are a few key things we can do to make a difference.

Controversial Chemistry Research Topics

Controversial chemistry is all about hot-button topics that people are passionate about. This can include anything from the use of chemicals in warfare to the health effects of different chemicals. If you are looking for controversial topics to write about , here are some ideas to get you started:

The use of chemicals in warfare
Gene modification in human babies
Bioengineering
How fast food chemicals affect the human brain
The role of the government in regulating chemicals
Evolution of cigarette chemicals over time
Chemical effects of CBD oils
Ethical issues in genetic modification of organisms
Nuclear energy: risks and benefits
Use of chemicals in electronic waste recycling
Antidepressant chemical reactions
Synthetic molecule replication methods
Gene analysis

Controversial research papers often appear in the media before it has been peer-reviewed and published in a scientific journal. The reason for this is that the media is interested in stories that are new, exciting, and generate a lot of debate.

Chemistry is an incredibly diverse and interesting field, with many controversial topics to write about. If you are looking for a research topic, consider the examples listed in this article. With a little bit of effort, you are sure to find a topic that is both interesting and within your skillset.

In order to be a good researcher, it is important to be able to think critically and solve problems. However, innovation in chemistry research can be challenging. When thinking about how to innovate, it is important to consider both the practical and theoretical aspects of your research. Additionally, try to build on the work of others in order to create something new and unique. With a little bit of effort, you are sure to be able to find a topic that is both interesting and within your skillset.

Happy writing!

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Organic Chemistry Research Paper Topics

Carbon family
Fermentation
Hydrologic cycle
Natural gas
Nitrogen cycle
Nitrogen family
Oxygen family

In 1828, German chemist Friedrich Wöhler (1800–1882) proved that this theory of vitalism was untrue. He found a very simple way to convert chemical compounds from living organisms into comparable compounds from nonliving entities.

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As a result of Wöhler’s research, the definition of organic chemistry changed. The new definition was based on the observation that every compound discovered in living organisms had one property in common: they all contained the element carbon. As a result, the modern definition of organic chemistry—as the study of carbon compounds—was adopted.

Organic and Inorganic Chemistry

One important point that Wöhler’s research showed was that the principles and techniques of chemistry apply equally well to compounds found in living organisms and in nonliving things. Nonetheless, some important differences between organic and inorganic (not organic) compounds exist. These include the following:

The number of organic compounds vastly exceeds the number of inorganic compounds. The ratio of carbon-based compounds to noncarbon- based compounds is at least ten to one, with close to 10 million organic compounds known today. The reason for this dramatic difference is a special property of the carbon atom: its ability to join with other carbon atoms in very long chains, in rings, and in other kinds of geometric arrangements. It is not at all unusual for dozens, hundreds, or thousands of carbon atoms to bond to each other within a single compound—a property that no other element exhibits.
In general, organic compounds tend to have much lower melting and boiling points than do inorganic compounds.
In general, organic compounds are less likely to dissolve in water than are inorganic compounds.
Organic compounds are likely to be more flammable but poorer conductors of heat and electricity than are inorganic compounds.
Organic reactions tend to take place more slowly and to produce a much more complex set of products than do inorganic reactions.

Functional Groups and Organic Families

The huge number of organic compounds requires that some system be developed for organizing them. The criterion on which those compounds are organized is the presence of various functional groups. A functional group is an arrangement of atoms that is responsible for certain characteristic physical and chemical properties in a compound. For example, one such functional group is the hydroxyl group, consisting of an oxygen atom and hydrogen atom joined to each other. It is represented by the formula -OH.

All organic compounds with the same functional group are said to belong to the same organic family. Any organic compound that contains a hydroxyl group, for instance, is called an alcohol. All alcohols are similar to each other in that: (1) they contain one or more hydroxyl groups, and (2) because of those groups, they have similar physical and chemical properties. For example, alcohols tend to be more soluble in water than other organic compounds because the hydroxyl groups in the alcohol form bonds with water molecules.

The simplest organic compounds are the hydrocarbons, compounds that contain only two elements: carbon and hydrogen. The class of hydrocarbons can be divided into subgroups depending on the way in which carbon and hydrogen atoms are joined to each other. In some hydrocarbons, for example, carbon and hydrogen atoms are joined to each other only by single bonds. A single bond is a chemical bond that consists of a pair of electrons. Such hydrocarbons are known as saturated hydrocarbons.

In other hydrocarbons, carbon and hydrogen atoms are joined to each other by double or triple bonds. A double bond consists of two pairs of electrons, and a triple bond consists of three pairs of electrons. Hydrocarbons containing double and triple bonds are said to be unsaturated.

Hydrocarbons can also be open-chain or ring compounds. In an open-chain hydrocarbon, the carbon atoms are all arranged in a straight line, like a strand of spaghetti. In a ring hydrocarbon, the carbons are arranged in a continuous loop, such as a square, a pentagon, or a triangle.

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300+ Chemistry Research Topics

Table of Contents

Chemistry is a fascinating and complex field that explores the composition, properties, and behavior of matter at the molecular and atomic level. As a result, there are numerous chemistry research topics that can be explored, ranging from the development of new materials and drugs to the study of natural compounds and the environment. In this rapidly evolving field, researchers are constantly uncovering new insights and pushing the boundaries of our understanding of chemistry. Whether you are a student, a professional researcher, or simply curious about the world around you, there is always something new to discover in the field of chemistry. In this post, we will explore some of the exciting and important research topics in chemistry today.

Chemistry Research Topics

Chemistry Research Topics are as follows:

Organic Chemistry Research Topics

Organic Chemistry Research Topics are as follows:

Development of novel synthetic routes for the production of biologically active natural products
Investigation of reaction mechanisms and kinetics for organic transformations
Design and synthesis of new catalysts for asymmetric organic reactions
Synthesis and characterization of chiral compounds for pharmaceutical applications
Development of sustainable methods for the synthesis of organic molecules using renewable resources
Discovery of new reaction pathways for the conversion of biomass into high-value chemicals
Study of molecular recognition and host-guest interactions for drug design
Design and synthesis of new materials for energy storage and conversion
Development of efficient and selective methods for C-H functionalization reactions
Exploration of the reactivity of reactive intermediates such as radicals and carbenes
Study of supramolecular chemistry and self-assembly of organic molecules
Development of new methods for the synthesis of heterocyclic compounds
Investigation of the biological activities and mechanisms of action of natural products
Synthesis of polymeric materials with controlled architecture and functionality
Development of new synthetic methodologies for the preparation of bioconjugates
Investigation of the mechanisms of enzyme catalysis and the design of enzyme inhibitors
Synthesis and characterization of novel fluorescent probes for biological imaging
Development of new synthetic strategies for the preparation of carbohydrates and glycoconjugates
Study of the properties and reactivity of carbon nanomaterials
Design and synthesis of novel drugs for the treatment of diseases such as cancer, diabetes, and Alzheimer’s disease.

Inorganic Chemistry Research Topics

Inorganic Chemistry Research Topics are as follows:

Synthesis and characterization of new metal-organic frameworks (MOFs) for gas storage and separation applications
Development of new catalysts for sustainable chemical synthesis reactions
Investigation of the electronic and magnetic properties of transition metal complexes for spintronics applications
Synthesis and characterization of novel nanomaterials for energy storage applications
Development of new ligands for metal coordination complexes with potential medical applications
Investigation of the mechanism of metal-catalyzed reactions using advanced spectroscopic techniques
Synthesis and characterization of new inorganic materials for photocatalytic water splitting
Development of new materials for electrochemical carbon dioxide reduction reactions
Investigation of the properties of transition metal oxides for energy storage and conversion applications
Synthesis and characterization of new metal chalcogenides for optoelectronic applications
Development of new methods for the preparation of inorganic nanoparticles with controlled size and shape
Investigation of the reactivity and catalytic properties of metal clusters
Synthesis and characterization of new metal-organic polyhedra (MOPs) for gas storage and separation applications
Development of new methods for the synthesis of metal nanoparticles using environmentally friendly reducing agents
Investigation of the properties of metal-organic frameworks for gas sensing applications
Synthesis and characterization of new coordination polymers with potential magnetic and electronic properties
Development of new materials for electrocatalytic water oxidation reactions
Investigation of the properties of metal-organic frameworks for carbon capture and storage applications
Synthesis and characterization of new metal-containing polymers with potential applications in electronics and energy storage
Development of new methods for the synthesis of metal-organic frameworks using green solvents and renewable resources.

Physical Chemistry Research Topics

Physical Chemistry Research Topics are as follows:

Investigation of the properties and interactions of ionic liquids in aqueous and non-aqueous solutions.
Development of advanced analytical techniques for the study of protein structure and dynamics.
Investigation of the thermodynamic properties of supercritical fluids for use in industrial applications.
Development of novel nanomaterials for energy storage applications.
Studies of the surface chemistry of catalysts for the optimization of their performance in chemical reactions.
Development of new methods for the synthesis of complex organic molecules with improved yields and selectivity.
Investigation of the molecular mechanisms involved in the catalysis of biochemical reactions.
Development of new strategies for the controlled release of drugs and other bioactive molecules.
Studies of the interaction of nanoparticles with biological systems for biomedical applications.
Investigation of the thermodynamic properties of materials under extreme conditions of temperature and pressure.
Development of new methods for the characterization of materials at the nanoscale.
Investigation of the electronic and magnetic properties of materials for use in spintronics.
Development of new materials for energy conversion and storage.
Studies of the kinetics and thermodynamics of adsorption processes on surfaces.
Investigation of the transport properties of ionic liquids for use in energy storage and conversion devices.
Development of new materials for the capture and sequestration of greenhouse gases.
Studies of the structure and properties of biomolecules for use in drug design and development.
Investigation of the dynamics of chemical reactions in solution using time-resolved spectroscopic techniques.
Development of new approaches for the synthesis of metallic and semiconductor nanoparticles with controlled size and shape.
Studies of the structure and properties of materials for use in electrochemical energy storage devices.

Analytical Chemistry Research Topics

Analytical Chemistry Research Topics are as follows:

Development and optimization of analytical techniques for the quantification of trace elements in food and environmental samples.
Design and synthesis of novel analytical probes for the detection of biomolecules in complex matrices.
Investigation of the fundamental mechanisms involved in the separation and detection of complex mixtures using chromatographic techniques.
Development of sensors and biosensors for the detection of chemical and biological species in real-time.
Investigation of the chemical and structural properties of nanomaterials and their applications in analytical chemistry.
Development and validation of analytical methods for the quantification of contaminants and pollutants in water, air, and soil.
Investigation of the molecular mechanisms underlying drug metabolism and toxicity using mass spectrometry.
Development of analytical tools for the identification and quantification of drugs of abuse in biological matrices.
Investigation of the chemical composition and properties of natural products and their applications in medicine and food science.
Development of advanced analytical techniques for the characterization of proteins and peptides.
Investigation of the chemistry and mechanism of action of antioxidants in foods and their impact on human health.
Development of analytical methods for the detection and quantification of microorganisms in food and environmental samples.
Investigation of the molecular mechanisms involved in the biosynthesis and degradation of important biomolecules such as proteins, carbohydrates, and lipids.
Development of analytical methods for the detection and quantification of environmental toxins and their impact on human health.
Investigation of the structure and properties of biological membranes and their role in drug delivery and disease.
Development of analytical techniques for the characterization of complex mixtures such as petroleum and crude oil.
Investigation of the chemistry and mechanism of action of natural and synthetic dyes.
Development of analytical techniques for the detection and quantification of pharmaceuticals and personal care products in water and wastewater.
Investigation of the chemical composition and properties of biopolymers and their applications in biomedicine and biomaterials.
Development of analytical methods for the identification and quantification of essential nutrients and vitamins in food and dietary supplements.

Biochemistry Research Topics

Biochemistry Research Topics are as follows:

The role of enzymes in metabolic pathways
The biochemistry of DNA replication and repair
Protein folding and misfolding diseases
Lipid metabolism and the pathogenesis of atherosclerosis
The role of vitamins and minerals in human metabolism
Biochemistry of cancer and the development of targeted therapies
The biochemistry of signal transduction pathways and their regulation
The mechanisms of antibiotic resistance in bacteria
The biochemistry of neurotransmitters and their roles in behavior and disease
The role of oxidative stress in aging and age-related diseases
The biochemistry of microbial fermentation and its applications in industry
The biochemistry of the immune system and its response to pathogens
The biochemistry of plant metabolism and its regulation
The molecular basis of genetic diseases and gene therapy
The biochemistry of membrane transport and its role in cell function
The biochemistry of muscle contraction and its regulation
The role of lipids in membrane structure and function
The biochemistry of photosynthesis and its regulation
The biochemistry of RNA splicing and alternative splicing events
The biochemistry of epigenetics and its regulation in gene expression.

Environmental Chemistry Research Topics

Environmental Chemistry Research Topics are as follows:

Investigating the effects of microplastics on aquatic ecosystems and their potential impact on human health.
Examining the impact of climate change on soil quality and nutrient availability in agricultural systems.
Developing methods to improve the removal of heavy metals from contaminated soils and waterways.
Assessing the effectiveness of natural and synthetic antioxidants in mitigating the effects of air pollution on human health.
Investigating the potential for using algae and other microorganisms to sequester carbon dioxide from the atmosphere.
Studying the role of biodegradable plastics in reducing plastic waste and their impact on the environment.
Examining the impact of pesticides and other agricultural chemicals on water quality and the health of aquatic organisms.
Investigating the effects of ocean acidification on marine organisms and ecosystems.
Developing new materials and technologies to reduce carbon emissions from industrial processes.
Evaluating the effectiveness of phytoremediation in cleaning up contaminated soils and waterways.
Studying the impact of microplastics on terrestrial ecosystems and their potential to enter the food chain.
Developing sustainable methods for managing and recycling electronic waste.
Investigating the role of natural processes, such as weathering and erosion, in regulating atmospheric carbon dioxide levels.
Assessing the impact of urbanization on air quality and developing strategies to mitigate pollution in cities.
Examining the effects of climate change on the distribution and abundance of species in different ecosystems.
Investigating the impact of ocean currents on the distribution of pollutants and other environmental contaminants.
Developing new materials and technologies for renewable energy generation and storage.
Studying the effects of deforestation on soil quality, water availability, and biodiversity.
Assessing the potential for using waste materials, such as agricultural residues and municipal solid waste, as sources of renewable energy.
Investigating the role of natural and synthetic chemicals in regulating ecosystem functions, such as nutrient cycling and carbon sequestration.

Polymer Chemistry Research Topics

Polymer Chemistry Research Topics are as follows:

Development of new monomers for high-performance polymers
Synthesis and characterization of biodegradable polymers for sustainable packaging
Design of stimuli-responsive polymers for drug delivery applications
Investigation of the properties and applications of conductive polymers
Development of new catalysts for controlled/living polymerization
Synthesis of polymers with tailored mechanical properties
Characterization of the structure-property relationship in polymer nanocomposites
Study of the impact of polymer architecture on material properties
Design and synthesis of new polymeric materials for energy storage
Development of high-throughput methods for polymer synthesis and characterization
Exploration of new strategies for polymer recycling and upcycling
Synthesis and characterization of responsive polymer networks for smart textiles
Design of advanced polymer coatings with self-healing properties
Investigation of the impact of processing conditions on the morphology and properties of polymer materials
Study of the interactions between polymers and biological systems
Development of biocompatible polymers for tissue engineering applications
Synthesis and characterization of block copolymers for advanced membrane applications
Exploration of the potential of polymer-based sensors and actuators
Design of novel polymer electrolytes for advanced batteries and fuel cells
Study of the behavior of polymers under extreme conditions, such as high pressure or temperature.

Materials Chemistry Research Topics

Materials Chemistry Research Topics are as follows:

Development of new advanced materials for energy storage and conversion
Synthesis and characterization of nanomaterials for environmental remediation
Design and fabrication of stimuli-responsive materials for drug delivery
Investigation of electrocatalytic materials for fuel cells and electrolysis
Fabrication of flexible and stretchable electronic materials for wearable devices
Development of novel materials for high-performance electronic devices
Exploration of organic-inorganic hybrid materials for optoelectronic applications
Study of corrosion-resistant coatings for metallic materials
Investigation of biomaterials for tissue engineering and regenerative medicine
Synthesis and characterization of metal-organic frameworks for gas storage and separation
Design and fabrication of new materials for water purification
Investigation of carbon-based materials for supercapacitors and batteries
Synthesis and characterization of self-healing materials for structural applications
Development of new materials for catalysis and chemical reactions
Exploration of magnetic materials for spintronic devices
Investigation of thermoelectric materials for energy conversion
Study of 2D materials for electronic and optoelectronic applications
Development of sustainable and eco-friendly materials for packaging
Fabrication of advanced materials for sensors and actuators
Investigation of materials for high-temperature applications such as aerospace and nuclear industries.

Nuclear Chemistry Research Topics

Nuclear Chemistry Research Topics are as follows:

Nuclear fission and fusion reactions
Nuclear power plant safety and radiation protection
Radioactive waste management and disposal
Nuclear fuel cycle and waste reprocessing
Nuclear energy and its impact on climate change
Radiation therapy for cancer treatment
Radiopharmaceuticals for medical imaging
Nuclear medicine and its role in diagnostics
Nuclear forensics and nuclear security
Isotopic analysis in environmental monitoring and pollution control
Nuclear magnetic resonance (NMR) spectroscopy
Nuclear magnetic resonance imaging (MRI)
Radiation damage in materials and radiation effects on electronic devices
Nuclear data evaluation and validation
Nuclear reactors design and optimization
Nuclear fuel performance and irradiation behavior
Nuclear energy systems integration and optimization
Neutron and gamma-ray detection and measurement techniques
Nuclear astrophysics and cosmology
Nuclear weapons proliferation and disarmament.

Medicinal Chemistry Research Topics

Medicinal Chemistry Research Topics are as follows:

Drug discovery and development
Design and synthesis of novel drugs
Medicinal chemistry of natural products
Structure-activity relationships (SAR) of drugs
Rational drug design using computational methods
Target identification and validation
Drug metabolism and pharmacokinetics (DMPK)
Drug delivery systems
Development of new antibiotics
Design of drugs for the treatment of cancer
Development of drugs for the treatment of neurological disorders
Medicinal chemistry of peptides and proteins
Development of drugs for the treatment of infectious diseases
Discovery of new antiviral agents
Design of drugs for the treatment of cardiovascular diseases
Medicinal chemistry of enzyme inhibitors
Development of drugs for the treatment of inflammatory diseases
Design of drugs for the treatment of metabolic disorders
Medicinal chemistry of anti-cancer agents
Development of drugs for the treatment of rare diseases.

Food Chemistry Research Topics

Food Chemistry Research Topics are as follows:

Investigating the effect of cooking methods on the nutritional value of food.
Analyzing the role of antioxidants in preventing food spoilage and degradation.
Examining the effect of food processing techniques on the nutritional value of fruits and vegetables.
Studying the chemistry of food additives and their impact on human health.
Evaluating the role of enzymes in food digestion and processing.
Investigating the chemical properties and functional uses of food proteins.
Analyzing the effect of food packaging materials on the quality and safety of food products.
Examining the chemistry of food flavorings and the impact of flavor on consumer acceptance.
Studying the role of carbohydrates in food texture and structure.
Investigating the chemistry of food lipids and their impact on human health.
Analyzing the chemical properties and functional uses of food gums and emulsifiers.
Examining the effect of processing on the flavor and aroma of food products.
Studying the chemistry of food preservatives and their impact on food safety.
Investigating the chemical properties and functional uses of food fibers.
Analyzing the effect of food processing on the bioavailability of nutrients.
Examining the chemistry of food colorants and their impact on consumer acceptance.
Studying the role of vitamins and minerals in food and their impact on human health.
Investigating the chemical properties and functional uses of food hydrocolloids.
Analyzing the effect of food processing on the allergenicity of food products.
Examining the chemistry of food sweeteners and their impact on human health.

Industrial Chemistry Research Topics

Industrial Chemistry Research Topics are as follows:

Development of catalysts for selective hydrogenation reactions in the petrochemical industry.
Green chemistry approaches for the synthesis of biodegradable polymers from renewable sources.
Optimization of solvent extraction processes for the separation of rare earth elements from ores.
Development of novel materials for energy storage applications, such as lithium-ion batteries.
Production of biofuels from non-food sources, such as algae or waste biomass.
Application of computational chemistry to optimize the design of new catalysts and materials.
Design and optimization of continuous flow processes for large-scale chemical production.
Development of new synthetic routes for the production of pharmaceutical intermediates.
Investigation of the environmental impact of industrial processes and development of sustainable alternatives.
Development of innovative water treatment technologies for industrial wastewater.
Synthesis of functionalized nanoparticles for use in drug delivery and other biomedical applications.
Optimization of processes for the production of high-performance polymers, such as polyamides or polyesters.
Design and optimization of process control strategies for efficient and safe chemical production.
Development of new methods for the detection and removal of heavy metal ions from industrial effluents.
Investigation of the behavior of surfactants in complex mixtures, such as crude oil or food products.
Development of new materials for catalytic oxidation reactions, such as the removal of volatile organic compounds from air.
Investigation of the properties and behavior of materials under extreme conditions, such as high pressure or high temperature.
Development of new processes for the production of chemicals from renewable resources, such as bio-based building blocks.
Study of the kinetics and mechanism of chemical reactions in complex systems, such as multi-phase reactors.
Optimization of the production of fine chemicals, such as flavors and fragrances, using biocatalytic processes.

Computational Chemistry Research Topics

Computational Chemistry Research Topics are as follows:

Development and application of machine learning algorithms for predicting chemical reactions and properties.
Investigation of the role of solvents in chemical reactions using molecular dynamics simulations.
Modeling and simulation of protein-ligand interactions to aid drug design.
Study of the electronic structure and reactivity of catalysts for sustainable energy production.
Analysis of the thermodynamics and kinetics of complex chemical reactions using quantum chemistry methods.
Exploration of the mechanism and kinetics of enzyme-catalyzed reactions using molecular dynamics simulations.
Investigation of the properties and behavior of nanoparticles using computational modeling.
Development of computational tools for the prediction of chemical toxicity and environmental impact.
Study of the electronic properties of graphene and other 2D materials for applications in electronics and energy storage.
Investigation of the mechanisms of protein folding and aggregation using molecular dynamics simulations.
Development and optimization of computational methods for calculating thermodynamic properties of liquids and solids.
Study of the properties of supercritical fluids for applications in separation and extraction processes.
Development of new methods for the calculation of electron transfer rates in complex systems.
Investigation of the electronic and mechanical properties of carbon nanotubes for applications in nanoelectronics and nanocomposites.
Development of new approaches for modeling the interaction of biomolecules with biological membranes.
Study of the mechanisms of charge transfer in molecular and hybrid solar cells.
Analysis of the structural and mechanical properties of materials under extreme conditions using molecular dynamics simulations.
Development of new approaches for the calculation of free energy differences in complex systems.
Investigation of the reaction mechanisms of metalloenzymes using quantum mechanics/molecular mechanics (QM/MM) methods.
Study of the properties of ionic liquids for applications in catalysis and energy storage.

Theoretical Chemistry Research Topics

Theoretical Chemistry Research Topics are as follows:

Quantum Chemical Studies of Excited State Processes in Organic Molecules
Theoretical Investigation of Structure and Reactivity of Metal-Organic Frameworks
Computational Modeling of Reaction Mechanisms and Kinetics in Enzyme Catalysis
Theoretical Investigation of Non-Covalent Interactions in Supramolecular Chemistry
Quantum Chemical Studies of Photochemical Processes in Organic Molecules
Theoretical Analysis of Charge Transport in Organic and Inorganic Materials
Computational Modeling of Protein Folding and Dynamics
Quantum Chemical Investigations of Electron Transfer Processes in Complex Systems
Theoretical Studies of Surface Chemistry and Catalysis
Computational Design of Novel Materials for Energy Storage Applications
Theoretical Analysis of Chemical Bonding and Molecular Orbital Theory
Quantum Chemical Investigations of Magnetic Properties of Complex Systems
Computational Modeling of Biological Membranes and Transport Processes
Theoretical Studies of Nonlinear Optical Properties of Molecules and Materials
Quantum Chemical Studies of Spectroscopic Properties of Molecules
Theoretical Investigations of Reaction Mechanisms in Organometallic Chemistry
Computational Modeling of Heterogeneous Catalysis
Quantum Chemical Studies of Excited State Dynamics in Photosynthesis
Theoretical Analysis of Chemical Reaction Networks
Computational Design of Nanomaterials for Biomedical Applications

Astrochemistry Research Topics

Astrochemistry Research Topics are as follows:

Investigating the chemical composition of protoplanetary disks and its implications for planet formation
Examining the role of magnetic fields in the formation of complex organic molecules in space
Studying the effects of interstellar radiation on the chemical evolution of molecular clouds
Exploring the chemistry of comets and asteroids to better understand the early solar system
Investigating the origin and evolution of interstellar dust and its relationship to organic molecules
Examining the formation and destruction of interstellar molecules in shocked gas
Studying the chemical processes that occur in the atmospheres of planets and moons in our solar system
Exploring the possibility of life on other planets through astrobiology and astrochemistry
Investigating the chemistry of planetary nebulae and their role in the evolution of stars
Studying the chemical properties of exoplanets and their potential habitability
Examining the chemical reactions that occur in the interstellar medium
Investigating the chemical composition of supernova remnants and their impact on the evolution of galaxies
Studying the chemical composition of interstellar grains and their role in the formation of stars and planets
Exploring the chemistry of astrocytes and their role in the evolution of galaxies
Investigating the formation of interstellar ice and its implications for the origin of life
Examining the chemistry of molecular clouds and its relationship to star formation
Studying the chemical composition of the interstellar medium in different galaxies and how it varies
Investigating the role of cosmic rays in the formation of complex organic molecules in space
Exploring the chemical properties of interstellar filaments and their relationship to star formation
Studying the chemistry of protostars and the role of turbulence in the formation of stars.

Geochemistry Research Topics

Geochemistry Research Topics are as follows:

Understanding the role of mineralogical and geochemical factors on metal mobility in contaminated soils
Investigating the sources and fate of dissolved organic matter in aquatic systems
Exploring the geochemical signatures of ancient sedimentary rocks to reconstruct Earth’s past atmospheric conditions
Studying the impacts of land-use change on soil organic matter content and quality
Investigating the impact of acid mine drainage on water quality and ecosystem health
Examining the processes controlling the behavior and fate of emerging contaminants in the environment
Characterizing the organic matter composition of shale gas formations to better understand hydrocarbon storage and migration
Evaluating the potential for carbon capture and storage in geologic formations
Investigating the geochemical processes controlling the formation and evolution of ore deposits
Studying the geochemistry of geothermal systems to better understand energy production potential and environmental impacts
Exploring the impacts of climate change on the biogeochemistry of terrestrial ecosystems
Investigating the geochemical cycling of nutrients in coastal marine environments
Characterizing the isotopic composition of minerals and fluids to understand Earth’s evolution
Developing new analytical techniques to better understand the chemistry of natural waters
Studying the impact of anthropogenic activities on the geochemistry of urban soils
Investigating the role of microbial processes in geochemical cycling of elements in soils and sediments
Examining the impact of wildfires on soil and water chemistry
Characterizing the geochemistry of mineral dust and its impact on climate and biogeochemical cycles
Investigating the geochemical factors controlling the release and transport of contaminants from mine tailings
Exploring the biogeochemistry of wetlands and their role in carbon sequestration and nutrient cycling.

Electrochemistry Research Topics

Electrochemistry Research Topics are as follows:

Development of high-performance electrocatalysts for efficient electrochemical conversion of CO2 to fuels and chemicals
Investigation of electrode-electrolyte interfaces in lithium-ion batteries for enhanced battery performance and durability
Design and synthesis of novel electrolytes for high-energy-density and stable lithium-sulfur batteries
Development of advanced electrochemical sensors for the detection of trace-levels of analytes in biological and environmental samples
Analysis of the electrochemical behavior of new materials and their electrocatalytic properties in fuel cells
Study of the kinetics of electrochemical reactions and their effect on the efficiency and selectivity of electrochemical processes
Development of novel strategies for the electrochemical synthesis of value-added chemicals from biomass and waste materials
Analysis of the electrochemical properties of metal-organic frameworks (MOFs) for energy storage and conversion applications
Investigation of the electrochemical degradation mechanisms of polymer electrolyte membranes in fuel cells
Study of the electrochemical properties of 2D materials and their applications in energy storage and conversion devices
Development of efficient electrochemical systems for desalination and water treatment applications
Investigation of the electrochemical properties of metal-oxide nanoparticles for energy storage and conversion applications
Analysis of the electrochemical behavior of redox-active organic molecules and their application in energy storage and conversion devices
Study of the electrochemical behavior of metal-organic frameworks (MOFs) for the catalytic conversion of CO2 to value-added chemicals
Development of novel electrode materials for electrochemical capacitors with high energy density and fast charge/discharge rates
Investigation of the electrochemical properties of perovskite materials for energy storage and conversion applications
Study of the electrochemical behavior of enzymes and their application in bioelectrochemical systems
Development of advanced electrochemical techniques for the characterization of interfacial processes in electrochemical systems
Analysis of the electrochemical behavior of nanocarbons and their application in electrochemical energy storage devices
Investigation of the electrochemical properties of ionic liquids for energy storage and conversion applications.

Surface Chemistry Research Topics

Surface Chemistry Research Topics are as follows:

Surface modification of nanoparticles for enhanced catalytic activity
Investigating the effect of surface roughness on the wetting behavior of materials
Development of new materials for solar cell applications through surface chemistry techniques
Surface chemistry of graphene and its applications in electronic devices
Surface functionalization of biomaterials for biomedical applications
Characterization of surface defects and their effect on material properties
Surface modification of carbon nanotubes for energy storage applications
Developing surface coatings for corrosion protection of metals
Synthesis of self-assembled monolayers on surfaces for sensor applications
Surface chemistry of metal-organic frameworks for gas storage and separation
Investigating the role of surface charge in protein adsorption
Developing surfaces with superhydrophobic or superoleophobic properties for self-cleaning applications
Surface functionalization of nanoparticles for drug delivery applications
Surface chemistry of semiconductors and its effect on photovoltaic properties
Development of surface-enhanced Raman scattering (SERS) substrates for trace analyte detection
Surface functionalization of graphene oxide for water purification applications
Investigating the role of surface tension in emulsion formation and stabilization
Surface modification of membranes for water desalination and purification
Synthesis and characterization of metal nanoparticles for catalytic applications
Development of surfaces with controlled wettability for microfluidic applications.

Atmospheric Chemistry Research Topics

Atmospheric Chemistry Research Topics are as follows:

The impact of wildfires on atmospheric chemistry
The role of aerosols in atmospheric chemistry
The chemistry and physics of ozone depletion in the stratosphere
The chemistry and dynamics of the upper atmosphere
The impact of anthropogenic emissions on atmospheric chemistry
The role of clouds in atmospheric chemistry
The chemistry of atmospheric particulate matter
The impact of nitrogen oxides on atmospheric chemistry and air quality
The effects of climate change on atmospheric chemistry
The impact of atmospheric chemistry on climate change
The chemistry and physics of atmospheric mercury cycling
The impact of volcanic eruptions on atmospheric chemistry
The chemistry and physics of acid rain formation and effects
The role of halogen chemistry in the atmosphere
The chemistry of atmospheric radicals and their impact on air quality and health
The impact of urbanization on atmospheric chemistry
The chemistry and physics of stratospheric polar vortex dynamics
The role of natural sources (e.g. ocean, plants) in atmospheric chemistry
The impact of atmospheric chemistry on the biosphere
The chemistry and dynamics of the ozone hole over Antarctica.

Photochemistry Research Topics

Photochemistry Research Topics are as follows:

Investigating the mechanisms of photoinduced electron transfer reactions in organic photovoltaic materials.
Developing novel photoredox catalysts for photochemical reactions.
Understanding the effects of light on DNA and RNA stability and replication.
Studying the photochemistry of atmospheric pollutants and their impact on air quality.
Designing new photoresponsive materials for advanced photonic and electronic devices.
Exploring the photochemistry of metalloporphyrins for potential applications in catalysis.
Investigating the photochemistry of transition metal complexes and their use as photodynamic therapy agents.
Developing new photocatalytic systems for sustainable energy production.
Studying the photochemistry of natural products and their potential pharmaceutical applications.
Investigating the role of light in the formation and degradation of environmental contaminants.
Designing new photochromic materials for smart windows and displays.
Exploring the photochemistry of carbon nanomaterials for energy storage and conversion.
Developing new light-driven molecular machines for nanotechnology applications.
Investigating the photochemistry of organic dyes for potential applications in dye-sensitized solar cells.
Studying the effects of light on the behavior of biological macromolecules.
Designing new photoresponsive hydrogels for drug delivery applications.
Exploring the photochemistry of semiconductor nanoparticles for potential applications in quantum computing.
Investigating the mechanisms of photochemical reactions in ionic liquids.
Developing new photonic sensors for chemical and biological detection.
Studying the photochemistry of transition metal complexes for potential applications in water splitting and hydrogen production.

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Analytical chemistry tools point to the future of personalised medical diagnostics

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Innovative new technologies for testing blood samples could provide powerful ways to monitor health and pick up disease or illness. Two recently reported studies show how the combination of analytical chemistry and big data can improve diagnostics and catch disease earlier.

In Germany, one team has developed a screening tool that uses infrared spectroscopy (IR) and machine learning to detect multiple health conditions with just one measurement performed on blood. IR, which uses light to analyse the molecular composition of substances, has been used in chemistry and industry for decades but hasn’t really been used in medical diagnostics.

The team, led by physicist Mihaela Žigman at the Ludwig Maximilian University of Munich and the Max Planck Institute of Quantum Optics, used IR to analyse more than 5100 blood plasma samples from over 3000 individuals participating in a longitudinal cohort study.

Next, the team applied machine learning to analyse the molecular compositions of the blood samples and correlate these with medical data. The researchers discovered that the samples’ ‘molecular fingerprints’ contain valuable information that enables rapid health screening. Using a computer algorithm the team could identify various health problems, including abnormal levels of blood lipids, changes in blood pressure, type-2 diabetes and even pre-diabetes. Further, the algorithm could identify individuals who were healthy and remained healthy over the years.

‘We built algorithms that were tested on unseen test datasets to evaluate their efficiency in detecting single or combined physiological conditions and phenotypes,’ Žigman explains. ‘Our study introduces novelty by testing the ability to detect these conditions in a large, randomly heterogeneous population for the first time.’

A diagram showing infrared absorbance used to test blood for diabetes, metabolic syndrome and dyslipidemia

IR analysis of blood samples can detect health problems incuding abnormal levels of blood lipids and type-2 diabetes

In the future, she says her team will test this concept on even larger and more diverse populations, including those from different genetic and lifestyle backgrounds. This approach may help assess and stratify an individual’s risk levels for developing various serious conditions and evaluate overall health states, Žigman says. The eventual goal is to develop diagnostic models that can generalise effectively to larger populations.

Michael Snyder , director of Stanford University’s Center for Genomic and Personalized Medicine, says the study is really a proof-of-principle. ‘They’ve been able to use it for things that we already have tests to check for. But what about some less common things that you’d like to pick up – what’s the sensitivity [for] that?’ he asks. ‘It’s intriguing technology … if you could do a simple IR assay for all these things that would be great, because right now these tests cost a fair amount of money in a hospital if you add them all up.’ But Snyder suggests that this technology could still be prohibitively expensive, estimating that the best IR spectrometers cost between $10,000 (£7,857) and $40,000.

Protein signatures

Meanwhile, a separate study carried out as part of an international research partnership involving GSK, several UK universities and the Berlin Institute of Health in Germany has found that blood proteins can predict the risk of developing dozens of diseases. That team used data from the UK Biobank Pharma Proteomics Project, the largest proteomics study to date with measurements for approximately 3,000 plasma proteins from more than 40,000 individuals.

The protein data is linked to the electronic health records of Biobank participants, and the study’s authors used advanced analytical techniques to identify a ‘signature’ of between five and 20 proteins that appear to be highly predictive for each disease. They concluded that these protein signatures can identify the onset of 67 diseases, including multiple myeloma, non-Hodgkin lymphoma, motor neurone disease, pulmonary fibrosis, and dilated cardiomyopathy. The researchers report that these protein prediction models outperform models based on standard, clinically recorded information.

Protein signatures comprising 5–20 proteins can idicate the onset of 67 diseases. The chart above shows the performance of the protein signatures (coloured dots) in detecting each disease over benchmark models based on standard clinical data (black dots)

Snyder is enthusiastic about the findings and says that he could see some of the protein signatures being used in future clinical testing for specific diseases. Turning any of these technologies into at-home tests would be a game-changer, he adds.

Last year, Snyder’s own team at Stanford used mass spectroscopy to analyse the levels of more than 2000 proteins, lipids and metabolites in blood , with many of the results being comparable to standard diagnostic tests. The team has commercialised the technology through a metabolic testing company called Iollo , which accepts mailed in blood samples and then provides the sender with a lipid or metabolite profile covering approximately 20 wellness categories. Using AI tools and information provided about things like eating habits, the company makes specific recommendations for improving various aspects of health. The results have not yet been published, but Snyder says that they look promising.

Personalised diagnostics

Pharmaceutical chemist Derek Lowe, a Chemistry World columnist and author of the popular industry blog In the Pipeline , is optimistic about the future of these types of personalised diagnostics. ‘I think it makes a lot of sense if you could get a really accurate early warning on a lot of these medical conditions,’ he tells Chemistry World.

Given the advances in analytical chemistry and machine learning, Lowe predicts that such technologies will only get better and more powerful. However, he also warns that ‘a sloppy test’ with lots of false positive or false negative results would be extremely detrimental for the field.

Lowe and others are also careful to distinguish these sorts of efforts from that of Elizabeth Holmes, the founder and former chief executive of failed blood-testing startup Theranos who was sentenced to over 11 years in US federal prison in November 2022 for defrauding investors out of millions. She falsely claimed to have invented a technology that could detect hundreds of diseases with one test only about a drop of blood.

‘Theranos, as I understand it, was not working on testing for anything new so much as trying to do all the existing blood tests so much faster, easier and cheaper with so little blood,’ Lowe notes. In contrast, he says that finding new blood markers for disease ‘is a much more exciting story’.

1. T Eissa et al , Cell Rep. Med. , 2024, DOI: 10.1016/j.xcrm.2024.101625 2. J Carrasco-Zanini et al , Nat. Med. , 2024, DOI: 10.1038/s41591-024-03142-z

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Organic Chemistry II (CHM-2020 ) Lecture 27

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Organic chemistry
Organic chemistry is the study of the synthesis, structure, reactivity and properties of the diverse group of chemical compounds primarily constructed of carbon. All life on earth is carbon-based ...
10 Hot Topics in Chemistry So Far in 2023
Hot Articles in Inorganic/Organic Chemistry. Look, it's a hot topics collection within a hot topics collection! ... main-group chemistry, catalysis, energy research, medical science, and theoretical and computational chemistry. The ACS Editors' Choice designation is designed to highlight important new findings, which are free to read for a ...
Organic Chemistry News -- ScienceDaily
Organic Chemistry in the News. Organic compounds, protein engineering, and more. Read all the latest research in the field of organic chemistry. Full-text with images. Free.
Most popular 2021 organic chemistry articles, 2021 Home
Prodrug activation strategy by utilizing the reaction between aryl azide and endogenous acrolein that is generally overproduced by cancer cells. From the themed collection: Most popular 2021 organic chemistry articles, 2021. The article was first published on 01 Apr 2021. Chem. Sci., 2021,12, 5438-5449.
Organic chemistry
Read the latest Research articles in Organic chemistry from Scientific Reports. ... Organic chemistry articles within Scientific Reports. Featured. Article 23 July 2024 | Open Access.
Most popular 2022 organic chemistry articles Home
This specially curated collection pulls together some of the most popular articles from 2022 in the field of organic chemistry. The collection presents some outstanding contributions to the field, ranging from photocatalytic radical generation to prediction of protein pKa, and as with all Chemical Science articles - they are all completely free to access and read.
2023 Organic Chemistry Frontiers HOT articles Home
Directing group-assisted selective C-H bond activation of six-membered N-heterocycles and benzo-fused N-heterocycles has been reported. From the themed collection: 2023 Organic Chemistry Frontiers HOT articles. The article was first published on 07 Dec 2023. Org. Chem. Front., 2024,11, 540-575.
Organic chemistry
In organic chemistry, finding conditions that enable a broad range of compounds to undergo a particular type of reaction is highly desirable. However, conventional methods for doing so consume a ...
Trends and Opportunities in Organic Synthesis: Global State of Research
Emerging research topics in organic synthesis were identified by evaluating clusters of newly appeared subject-concept indexes and associated documents in the CAS organic synthesis content corpus. Three topics, namely, enzyme catalysis, photocatalysis, and green chemistry, showed the most consistent and recent (in the last 10 years) publication ...
Current Organic Chemistry
Read the latest articles of Current Organic Chemistry at ScienceDirect.com, Elsevier's leading platform of peer-reviewed scholarly literature
Organic chemistry
The latest chemistry news and research on organic chemistry, including synthesis, natural products and total synthesis, reaction mechanisms and supramolecular chemistry, from ...
Bringing Researchers and Practitioners Together: On the Aims of a
We outline our objectives along four topics to address structured and systematic research efforts in organic chemistry education and teaching at the university level. A focus is placed on organic chemistry, as this discipline can provide a clear subject-specific lens but also allows a systemic perspective, which can serve as a model for other ...
Hot Topic: C-H Activation Reactions: Latest Achievement and New
In celebration of the most impactful areas of research in Organic Chemistry, we are proud to present this feature Hot Topic* collection to highlight some of the recent advances in CH activation reactions.The activation of C-H bonds is one of the most vibrant research areas within synthetic organic chemistry. The transformation of inert C-H bonds into other functional groups has far-reaching ...
Researchers develop new chemical method to enhance drug discovery
H. Lee Moffitt Cancer Center & Research Institute. "Researchers develop new chemical method to enhance drug discovery." ScienceDaily. www.sciencedaily.com / releases / 2024 / 08 / 240816143434.htm ...
10 Hot Topics in Chemistry so far in 2022
Applied chemistry in healthcare. The top three hot topics in this selection all take us back into chemical applications in healthcare. At three is antifungal drug discovery. Fungal diseases cause millions of deaths each year, and can increase the morbidity of other bacterial and viral infections.
28 Must-Read Topics in Chemistry
Browse 28 of the most important, engaging topics in chemistry with Virtual Collections released by ACS Publications journals in Q4 2020: Crystalline Molecular Materials: From Structure to Function. This Virtual Special Issue focuses on the design and study of materials wherein the target properties arise from, or are enhanced by, the three ...
220908 PDFs
Organic chemistry is a subdiscipline within chemistry involving the scientific study of the structure, properties, composition, reactions,... | Explore the latest full-text research PDFs, articles ...
Innovative antibacterial strategy shows promise for treating infections
The diarginine peptidomimetic was initially developed in the lab and was shown to bind to double-stranded bacterial DNA. Feng and her colleagues tested it on so-called Eskape bacteria that are ...
Frontiers in Chemistry
575 views. Part of a journal that explores the role of chemistry in our everyday lives, this section publishes significant fundamental and applied work across all branches of organic chemistry.
Innovative study unveils a new path in green chemistry
Innovative study unveils a new path in green chemistry. ScienceDaily . Retrieved August 14, 2024 from www.sciencedaily.com / releases / 2024 / 08 / 240812123251.htm
Important Current Research Topics in Organic Synthesis
Important Current Research Topics in Organic Synthesis. This guide is intended to list some topics for Organic Chemists that one might specialize in: Sustainable and Green Chemistry: The development of more environmentally friendly and sustainable methods for synthesizing organic molecules is an important area of research. This includes the use of renewable resources, catalysts, and solvents ...
50 Research Ideas in Organic Chemistry
50 Intriguing Organic Chemistry Research Ideas. Green Synthesis of Organic Compounds: Explore eco-friendly methods for synthesizing organic molecules. Applications of Organometallic Chemistry: Discuss the use of organometallic compounds in catalysis and materials science. Designing Sustainable Polymers: Investigate the development of ...
Potential new class of antibiotics takes on flesh-eating infections
In a mouse model of S. pyogenes skin and soft tissue infection the researchers demonstrated that PS757 was effective against all stages of bacterial growth and biofilm formation. They also found ...
Unveiling MOF-808 Photocycle and its Interaction with Luminescent
The world of metal-organic frameworks (MOFs) has become a hot topic in recent years due to the extreme variety and tunability of their structures. There is evidence of MOFs which exhibit intrinsic luminescence properties that arise directly from their organic components or from the interaction between them with metallic counterparts.
110+ Great Chemistry Research Topics [2024]
Organic Сhemistry Research Topics. Organic chemistry is the study of carbon-containing molecules. There are many different organic chemistry research topics that a student could choose to focus on and here are just a few examples of possible research projects in organic chemistry: ... Controversial chemistry is all about hot-button topics that ...
What are some the hottest topics right now in organic chemistry research?
The hottest topics right now in organic chemistry research 1) Green Chemistry. 2)Synthesis of nano-materials and their applications in Organic synthesis as catalysts.3) Multicomponent synthesis 4 ...
Research provides a roadmap for improving ...
In this new study, the research team extended that work to create a universal roadmap for understanding how the conductivity of the flowing slurry depends upon the chemistry of the components from ...
Organic Chemistry Research Paper Topics
Organic chemistry is the science of compounds of carbon. The name organic goes back to a much earlier time in history when chemists thought that chemical compounds in living organisms were fundamentally different from those that occur in nonliving things. The belief was that the chemicals that could be extracted from or that were produced by ...
300+ Chemistry Research Topics
Organic Chemistry Research Topics. Organic Chemistry Research Topics are as follows: Development of novel synthetic routes for the production of biologically active natural products. Investigation of reaction mechanisms and kinetics for organic transformations. Design and synthesis of new catalysts for asymmetric organic reactions.
Analytical chemistry tools point to the future of personalised medical
Pharmaceutical chemist Derek Lowe, a Chemistry World columnist and author of the popular industry blog In the Pipeline, is optimistic about the future of these types of personalised diagnostics. ...