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Pantothenate biosynthesis and chemistry and enzymology of the shikimate pathway.
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Synthesis of novel polymer architectures. Carbon nanotube functionalization. Supramolecular polymer chemistry.
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Physical and bioorganic chemistry of synthetic and natural receptors and catalysts.
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Theoretical studies of dynamical processes in liquids, biopolymers and glasses.
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Heterogeneous catalysis.
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Synthetic and structural chemistry of transition metals, catalysis, polynuclear metal complexes, metalloporphyrins, fullerene chemistry, bioinorganic chemistry.
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Study of intermolecular interactions and their effects on molecular properties and behavior.
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Cell surface glycosylation. Biomaterial and interfacial design.
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Immobilization of catalysts with phosphine linkers. Surface organometallic chemistry. Solid-state NMR spectroscopy.
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Neuromessenger monitoring. In vitro evolution of functional biomolecules.
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US Department of Energy sponsored projects at Oak Ridge National Laboratory, Tennessee.
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Homepage of the Chemometrics Research Group at the University of Silesia, Poland.
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High technology electronic, Electro-optic, and nonlinear optical materials.
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Synthetic methodology. Molecular recognition. Supramolecular chemistry. Catalysis. Computer-aided molecular design.
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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.
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Biological Chemistry, Organic Chemistry, Organometallic Chemistry, DNA and RNA Chemistry, Photochemistry.
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Extended solids based on metal clusters. Chemistry of ternary nitrides. Thermoelectric coolers.
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Laser based microchemical analysis, capillary separation techniques, bioanalytical chemistry.
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Transition metal catalysts and development of chiral catalysts.
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Synthesis of biomimetic models of NADH and the molecular recognition of acids and amines.
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Harsh environment sensor development, synthesis and photochemistry of microporous materials and atmospheric particle toxicity.
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Chiral HPLC separations. Data mining. Theoretical models of enantioselection. Synthesis of new chiral stationary phases.
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Environmental Organic Chemistry Group. Research in organic micropollutants (including volatile organic compounds) in the environment, odour problems, and treatment technologies. A second major field of research is Clean Technology.
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Research in conducting polymers and polymer interfaces, electrochemistry, sensor arrays and artificial neural networks, scanning probe microscopy, ESCA and novel approaches to surface modification, and electrochemically-based actuators and pumping.
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Heterogeneous catalysis, nanostructure growth, environmental chemistry, laser-assisted materials processing, and chemical sensor technology.
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Deposition of thin films using alternating layer deposition and chemical vapor deposition.
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Metal-thiolate chemistry.
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Photooxygenation of organic compounds. Photocycloaddition reactions: stereoselectivity and spinselectivity. Photodecarboxylation, photoisomerization, and photocyclization reactions of imides. Photochemical macrocyclization reactions. New photochemical reactors and technologies.
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Novel biomaterials.
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Interfacial architecture.
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Supramolecular chemistry. Autowiring nanocircuits. Self-assemblying ECM. Biomineralization.
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Chemical biology.
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Environmental chemistry.
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Molecular electronic and vibrational spectroscopy.
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Ecotoxicology, biota-analysis, water-analysis, sediment-analysis, remote sensing, and Langmuir monolayer.
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Dendritic polymers. Macromolecular nano cylinders. Biofibers.
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New chemical building blocks. Green chemistry.
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Government organization involved in applied research in polymer science and technology, and education.
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Investigates highly reactive systems with first-principles simulations.
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Materials chemistry research, with a focus on nano-scale materials.
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Chemical crystallography.
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Enzymatic catalysis in biological systems.
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Integrates both chemical and biological disciplines, including chemical modifications and biotransformations.
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Reactive organic intermediates in solid state (zeolites) and solution systems. Physical bio-organic chemistry and the examination of enzyme active-site/reactive-intermediate complexes.
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Organic–inorganic materials. Transition metal catalysts. Bioinorganic modeling.
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Chiral liquid crystals, organic materials and glycolipids. Access to LiqCryst database.
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Atom transfer radical polymerization (ATRP) and other methods of controlled radical polymerization (CRP).
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Development of microchip sensors suitable for detection / quantification of acids, bases, salts, sugars, proteins, viruses, and DNA oligomers.
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Renewable raw materials. Fats and oils. Polymers. Block-polymers. Living/controlled polymerization. Metathesis. Catalysis. Mass-spectrometry
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Supramolecular, organometallic and bioinorganic chemistry.
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Molecular aggregation, protein ligand-interactions, prediction of molecular properties, and the molecular basis of odor.
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Synthesis and characterization of novel metalloporphyrins by X-ray, spectroscopic, and computational methods.
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Molecular Mechanisms underlying the biological activity of proteins. Mechanical properties of polymer molecules.
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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 .
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Molecular events initiated by light in photoreceptor cells.
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Synthetic and mechanistic organometallic chemistry, with interests in developing and understanding novel catalytic processes.
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Petroleum refining and fluorine chemistry.
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Catalytic peptide dendrimers. Enzyme assays and fingerprints. Small molecule enzyme inhibitors.
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Design and synthesis of novel structures for application in catalysis and nanotechnology.
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Solid-state nuclear magnetic resonance spectroscopy, methods and applications to biomolecular structure determination.
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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.
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Microfluidic and bioanalytical chemistry.
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Medicinal chemistry and drug delivery, focused on the development of drugs and delivery systems for the treatment of central nervous system (CNS) diseases. Development of novel prodrug linkages and the use of prodrugs to improve drug bioavailability and targeting.
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Signal transduction pathways. PIK-related kinases and the histone deactylases (HDACs).
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Synthetic and mechanistic organotransition metal. Inorganic chemistry. Catalysis. Polymers.
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Interface chemistry: surface modification of inorganic conductor or semiconductor surface and development of strong interfaces between metallic surfaces and biomolecules.
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Synthesis, crystal and electronic structure, and properties of solid state supramolecular and cluster compounds.
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X-ray diffraction of cobalt/iron-dioxygen complexes and copper (II) Jahn-Teller complexes.
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Integrated design and optical spectroscopy of nanometer-scale materials.
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Opto-electronic and sensor devices.
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Supramolecular and materials chemistry.
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Nanobiotechnology: hybrid materials from nanoscale objects and biomolecules. Nanotube composites: aligning soft mesophases with hard nanostructures. Novel bioanalytical methods using nanoparticle-based materials.
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Mass spectrometry, cluster ion chemistry, molecular spectroscopy and modelling of the ro-vibrational states of small molecules.
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Dynamics of metal oxide surfaces.
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Investigation of reaction mechanisms by non-empirical quantum mechanical methods.
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Structure and chemistry of solid surfaces. Heterogeneous catalysis, semiconductor processing, growth of thin film materials, and nanotechnology.
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Selective and catalytic organic transformations. Synthetic inorganic chemistry. Bio-inorganic coordination chemistry.
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Biomimetic and bioinorganic chemistry.
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Noncovalent interactions and their effect on structural specificity and chemical reactivity.
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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.
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Design of novel solids for use as shape-selective sorbents and catalysts.
