Physical Chemistry & Theoretical Chemistry

Advanced topics in physical chemistry consist of various spectroscopic techniques, including ultrafast and mass spectroscopy, nuclear magnetic and electron paramagnetic resonance, absorption of x-rays and microscopy of atomic force, as well as theoretical and analytical methods. Physical chemistry fills the void between the theories and techniques of contemporary physics and chemical processes. Physical and theoretical chemists work by using sophisticated characterization and statistical methods to unravel the phenomena that control all aspects of the physical world. Advanced characterization methods are applied to a wide range of subjects: electric vehicle energy storage materials, biologically related proteins to explain degenerative diseases, photo-induced molecular transformations, and physical chemists' diverse surface properties. Theoretical chemists work to develop quantum chemistry in order to enhance our understanding of all facets of chemistry, right down to the essence of chemical bonding.

  • Track 1-1 Spectroscopic methods
  • Track 2-2 Catalysis and implants
  • Track 3-3 Chemical systems
  • Track 4-4 Photo-induced molecular transformations
  • Track 5-5 Quantum mechanical methods
  • Track 6-6 Electron and proton transfer
  • Track 7-7 Protein function
  • Track 8-8 Photosynthesis
  • Track 9-9 Nanodevices for bio-detection

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