| Abell Group: Pantothenate biosynthesis and chemistry and enzymology of the shikimate pathway. |
| Adronov Group: Synthesis of novel polymer architectures. Carbon nanotube functionalization. Supramolecular polymer chemistry. |
| Anslyn Group: Physical and bioorganic chemistry of synthetic and natural receptors and catalysts. |
| Bagchi Group: Theoretical studies of dynamical processes in liquids, biopolymers and glasses. |
| Baiker Group: Heterogeneous catalysis. |
| Balch Group: Synthetic and structural chemistry of transition metals, catalysis, polynuclear metal complexes, metalloporphyrins, fullerene chemistry, bioinorganic chemistry. |
| Bernstein Group: Study of intermolecular interactions and their effects on molecular properties and behavior. |
| Bertozzi Group: Cell surface glycosylation. Biomaterial and interfacial design. |
| Bluemel Group: Immobilization of catalysts with phosphine linkers. Surface organometallic chemistry. Solid-state NMR spectroscopy. |
| Bowser Biotechnology Lab: Neuromessenger monitoring. In vitro evolution of functional biomolecules. |
| Chemical Sciences Division: US Department of Energy sponsored projects at Oak Ridge National Laboratory, Tennessee. |
| Chemometrics Group: Homepage of the Chemometrics Research Group at the University of Silesia, Poland. |
| Dalton Group: High technology electronic, Electro-optic, and nonlinear optical materials. |
| Davis Group: Synthetic methodology. Molecular recognition. Supramolecular chemistry. Catalysis. Computer-aided molecular design. |
| Deck Group: Organometallic chemistry aiming at making interesting and useful contributions to the frontiers of chemistry at the complex four-way intersection of organometallic, physical organic, polymer, and organofluorine chemistry. |
| Deiters Group: Biological Chemistry, Organic Chemistry, Organometallic Chemistry, DNA and RNA Chemistry, Photochemistry. |
| DiSalvo Group: Extended solids based on metal clusters. Chemistry of ternary nitrides. Thermoelectric coolers. |
| Dovichi Group: Laser based microchemical analysis, capillary separation techniques, bioanalytical chemistry. |
| Doyle Group: Transition metal catalysts and development of chiral catalysts. |
| Dupas Group: Synthesis of biomimetic models of NADH and the molecular recognition of acids and amines. |
| Dutta Group: Harsh environment sensor development, synthesis and photochemistry of microporous materials and atmospheric particle toxicity. |
| Dynamic Stereochemistry and Chirality Laboratory: Chiral HPLC separations. Data mining. Theoretical models of enantioselection. Synthesis of new chiral stationary phases. |
| Freund Group: Material science and analytical chemistry. |
| Friend Group: Heterogeneous catalysis, nanostructure growth, environmental chemistry, laser-assisted materials processing, and chemical sensor technology. |
| Gordon Group: Deposition of thin films using alternating layer deposition and chemical vapor deposition. |
| Grapperhaus Group: Metal-thiolate chemistry. |
| Griesbeck Group: Photooxygenation of organic compounds. Photocycloaddition reactions: stereoselectivity and spinselectivity. Photodecarboxylation, photoisomerization, and photocyclization reactions of imides. Photochemical macrocyclization reactions. New photochemical reactors and technologies. |
| Grinstaff Group: Novel biomaterials. |
| Hamers Group: Interfacial architecture. |
| Hartgerink Group: Supramolecular chemistry. Autowiring nanocircuits. Self-assemblying ECM. Biomineralization. |
| Hilvert Group: Chemical biology. |
| Hites Group: Environmental chemistry. |
| Hudson Group: Molecular electronic and vibrational spectroscopy. |
| Huhnerfuss Group: Ecotoxicology, biota-analysis, water-analysis, sediment-analysis, remote sensing, and Langmuir monolayer. |
| Hult Group: Dendritic polymers. Macromolecular nano cylinders. Biofibers. |
| Hutchison Group: New chemical building blocks. Green chemistry. |
| Iran Polymer and Petrochemical Institute - IPPI: Government organization involved in applied research in polymer science and technology, and education. |
| Irmgard Frank Group: Investigates highly reactive systems with first-principles simulations. |
| Jarrold Group: Biological mass spectrometry. Biophysics of peptides and proteins. Characterization of metal and semiconductor clusters. |
| Jin Group: Materials chemistry research, with a focus on nano-scale materials. |
| Kahr Group: Chemical crystallography. |
| Kohen Group: Enzymatic catalysis in biological systems. |
| Laboratory of Biotransformation: Integrates both chemical and biological disciplines, including chemical modifications and biotransformations. |
| Laser Flash Photolysis Group: Reactive organic intermediates in solid state (zeolites) and solution systems. Physical bio-organic chemistry and the examination of enzyme active-site/reactive-intermediate complexes. |
| Lee Group: Organic–inorganic materials. Transition metal catalysts. Bioinorganic modeling. |
| Liquid Crystal Group Hamburg: Chiral liquid crystals, organic materials and glycolipids. Access to LiqCryst database. |
| Matyjaszewski Group: Atom transfer radical polymerization (ATRP) and other methods of controlled radical polymerization (CRP). |
| McDevitt Group: Development of microchip sensors suitable for detection / quantification of acids, bases, salts, sugars, proteins, viruses, and DNA oligomers. |
| Meyer Group: Supramolecular, organometallic and bioinorganic chemistry. |
| Mitchell Group: Molecular aggregation, protein ligand-interactions, prediction of molecular properties, and the molecular basis of odor. |
| Munro Group: Synthesis and characterization of novel metalloporphyrins by X-ray, spectroscopic, and computational methods. |
| Nanomechanics Group: Molecular Mechanisms underlying the biological activity of proteins. Mechanical properties of polymer molecules. |
| Organometallic & Inorganic Chem Lab: Organometallic chemistry of f- and d-block transition metal complexes, chemistry of boron clusters, carboranes and metallacarboranes, homogenous catalysis and coordinative unsaturation, small molecule activation and polymer synthesis . |
| Palczewski Group: Molecular events initiated by light in photoreceptor cells. |
| PĂ©rot Group: Petroleum refining and fluorine chemistry. |
| Reymond Group: Catalytic peptide dendrimers. Enzyme assays and fingerprints. Small molecule enzyme inhibitors. |
| Richards Group: Design and synthesis of novel structures for application in catalysis and nanotechnology. |
| Rienstra Group: Solid-state nuclear magnetic resonance spectroscopy, methods and applications to biomolecular structure determination. |
| Roach Group: Chemical biology. Enzyme chemistry. Radical intermediates. Novel enzyme inhibitors. Protein labelling technologies for proteomics and in vivo imaging applications. High throughput methods for measuring the interaction of biological molecules. |
| Schreiber Group: Signal transduction pathways. PIK-related kinases and the histone deactylases (HDACs). |
| Schrock Group: Synthetic and mechanistic organotransition metal. Inorganic chemistry. Catalysis. Polymers. |
| Schwartz Group: Interface chemistry: surface modification of inorganic conductor or semiconductor surface and development of strong interfaces between metallic surfaces and biomolecules. |
| Shevelkov Group: Synthesis, crystal and electronic structure, and properties of solid state supramolecular and cluster compounds. |
| Simmons Group: X-ray diffraction of cobalt/iron-dioxygen complexes and copper (II) Jahn-Teller complexes. |
| Storch Group: Study of structure and bonding of tin-nitrogen compounds. Investigation of the mummification process of ancient egyptian mummies. |
| Strouse Group: Integrated design and optical spectroscopy of nanometer-scale materials. |
| Structural Chemistry Group: Opto-electronic and sensor devices. |
| Swager Group: Supramolecular and materials chemistry. |
| Taton Group: Nanobiotechnology: hybrid materials from nanoscale objects and biomolecules. Nanotube composites: aligning soft mesophases with hard nanostructures. Novel bioanalytical methods using nanoparticle-based materials. |
| The Molecular Structure and Detection Group: Mass spectrometry, cluster ion chemistry, molecular spectroscopy and modelling of the ro-vibrational states of small molecules. |
| Theoretical Inorganic Chemistry Group: Dynamics of metal oxide surfaces. |
| Theoretical Study of Reaction Mechanisms: Investigation of reaction mechanisms by non-empirical quantum mechanical methods. |
| Trenary Group: Structure and chemistry of solid surfaces. Heterogeneous catalysis, semiconductor processing, growth of thin film materials, and nanotechnology. |
| Vicic Group: Selective and catalytic organic transformations. Synthetic inorganic chemistry. Bio-inorganic coordination chemistry. |
| Volkmer Group: Biomimetic and bioinorganic chemistry. |
| Waters Group: Noncovalent interactions and their effect on structural specificity and chemical reactivity. |
| Whitesides Group: Physical and organic chemistry, materials science, biophysics, complexity, surface science, microfluidics, self-assembly, micro- and nanotechnology, science for developing economies, origin of life, and cell-surface biochemistry. |
| Wright Group: Design of novel solids for use as shape-selective sorbents and catalysts. |
Classical
