Mark E. McGuire

  • 600 Lincoln Avenue, 3150 Physical Science Building

    61920 Charleston

    United States

Personal profile

About

Recent advances in the fabrication of inexpensive nanocrystalline materials such as TiO2 in conjunction with the synthesis of stable photosensitizers (e.g., Ru(II)-polypyridyl complexes) that covalently bond to these materials has allowed construction of robust electrode systems and liquid solar cells that show efficient conversion of visible light to electrical energy. (For example, see O’Regan, B; Grätzel, M.  Nature 1991,353,737, for an often-cited reference.)

Current efforts in our research group, funded by the Petroleum Research Fund of the American Chemical Society, focus on exploiting this technology by attaching photoactive metal complexes of biologically active ligands to TiO2-coated transparent electrodes. Our goal is to promote photoassisted H-atom transfer reactions in order to catalyze chemical transformations using visible light. In other words, we wish to construct solar cells that are capable of using sunlight to provide the energy for chemical synthesis (i.e., artificial photosynthesis).

Contact Information

Education/Academic qualification

Ph.D., University of Rochester

… → 1985

B.S., Roberts Wesleyan College

… → 1978

Disciplines

  • Chemistry
  • Inorganic Chemistry