Organic Chemistry
Organic chemistry research at ±¬ÁϳԹÏÍø covers many scientific areas, both those traditionally associated with the field and in areas that impact other disciplines. These research areas range from the synthesis of bioactive small molecules to the formation of functional extended polymers or nanostructures, and from understanding how light waves interact with organic matter to exploring the chemistry of proteins, cells or living organisms. As such, faculty and students within the organic chemistry division have diverse research interests that intersect with many of the most pressing issues and needs facing modern society. Whether it be developing new medicines to treat disease or inventing useful materials for solar energy conversion or environmental remediation, the organic chemistry division is dedicated to conducting forward-looking research and training the next generation of scientific leaders.
Organic Chemistry Research Areas:
Chemical Biology
Molecular mechanisms of action, design and syntheses of bioactive small-molecules • neurodegenerative diseases • proteomics • bioorganic chemistry • natural product bio- synthesis and discovery • cell adhesion
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Organic Nanotechnology & Materials
Supramolecular chemistry • mechanostereochemistry • molecular recognition • self-assembly • functionalized and mechanized molecules • metal-organic frameworks and porous organic materials • artificial photosynthesis
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Physical Organic Chemistry
Electron donor–acceptor systems • photochemistry • molecular electronics • surface chemistry of graphene and polymer nanocomposites • self-assembled monolayers • mass spectrometry
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Total Synthesis & Method Development
Natural product synthesis • alkaloids • polyketides • polycyclic molecules • organocatalysis • asymmetric catalysis • organometallic chemistry • polymers • new reaction discovery and development
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