Bergbreiter, David E
bergbreiter@chem.tamu.edu
Professor of Chemistry. B. S., 1970, Michigan State University. Ph. D., 1974, Massachusetts Institute of Technology. Organic Chemistry. Reactions at polymeric surfaces; polymers in heterogeneous catalysis; polymer chemistry; transition metal catalysis; polymer synthesis; asymmetric organic synthesis; organometallic chemistry.
Bluemel, Janet
bluemel@chem.tamu.edu
Professor of Chemistry. Diploma, 1986, and Ph.D., 1989, Technical University of Munich. Nato Postdoctoral Fellow 1989-1990, University of California, Berkeley. Assistant Professor (Habilitandin), 1990-1996, and Privatdozentin, 1996-1997, Technical University of Munich. Associate Professor, 1998-2007, University of Heidelberg. Inorganic and organometallic chemistry, transition metal catalysis, immobilized catalysts, solid-state NMR spectroscopy, surface chemistry of oxides.
Johnson, Arthur
ajohnson@medicine.tamhsc.edu
E. L. Wehner-Welch Foundation Chair in Chemistry. Regents Professor. Distinguished Professor of Chemistry, Distinguished Professor of Molecular and Cellular Medicine, and Professor of Biochemistry and Biophysics. B. S., 1964, California Institute of Technology. Ph. D., 1973, University of Oregon. Helen Hay Whitney Fellow, 1974-1976, Columbia University. Biochemistry and Biophysical Chemistry. Molecular mechanisms involved in protein translocation across and integration into various membranes and in cell lysis by bacterial toxins; protein-membrane, protein-protein, and protein-RNA interactions; fluorescence spectroscopy and resonance energy transfer; photocrosslinking.
Soriaga, Manuel P
m-soriaga@tamu.edu
Professor of Chemistry. B. S., 1970, University of San Carlos (Philippines). Ph. D., 1977; Visiting Assistant Professor, 1977-78, University of Hawaii. ACS-PRF Research Fellow, 1978-81; Research Chemist, 1981-85, University of California at Santa Barbara. Analytical Chemistry. Electrochemical Surface Science. The surface science of electrocatalysis; surface organometallic chemistry; electrocatalysis by ultrathin films and nanoclusters; batteries and fuel cells; in situ scanning probe microscopy; ultrahigh vacuum surface analysis.