![]() More recently, he has addressed molecular neurobiology, developing the in vivo nonsense suppression method for unnatural amino acid incorporation into proteins expressed in living cells. ![]() Dougherty's extensive research interests have taken him to many fronts, but he is perhaps best known for development of the cation-π interaction, a novel but potent noncovalent binding interaction. In 1979 he joined the faculty at the California Institute of Technology, where he is now George Grant Hoag Professor of Chemistry. Dougherty received a PhD from Princeton with Kurt Mislow, followed by a year of postdoctoral study with Jerome Berson at Yale. Dougherty California Institute of Technologyĭennis A. His primary research is in physical organic chemistry and bioorganic chemistry, with specific interests in catalysts for phosphoryl and glycosyl transfers, receptors for carbohydrates and enolates, single and multi-analyte sensors – the development of an electronic tongue, and synthesis of polymeric molecules that exhibit unique abiotic secondary structure. He is also the Associate Editor for the Journal of the American Chemical Society and serves on the editorial boards of Supramolecular Chemistry and the Journal of Supramolecular Chemistry. Sloan Research Fellow, the Searle Scholar, the Dreyfus Teacher-Scholar Award, and the Jean Holloway Award for Excellence in Teaching. He currently holds four patents and is the recipient of numerous awards and honors, including the Presidential Young Investigator, the Alfred P. After completing post-doctoral work with Ronald Breslow at Columbia University, he joined the faculty at the University of Texas at Austin, where he became a Full Professor in 1999. Anslyn received his PhD in Chemistry from the California Institute of Technology under the direction of Robert Grubbs. Anslyn University of Texas, AustinĮric V. Advanced Concepts in Electronic Structure Theory, SolutionsĬhapter 15: Thermal Pericyclic Reactions, SolutionsĬhapter 17: Electronic Organic Materials, SolutionsĮric V. Organic Materials Chemistry, SolutionsĬhapter 14. Chapter 1: Introduction to Structure and Models of Bonding, SolutionsĬhapter 2: Strain and Stability, SolutionsĬhapter 3: The Thermodynamics of Solutions and Noncovalent Binding Forces, SolutionsĬhapter 4: Molecular Recognition and Supramolecular Chemistry, SolutionsĬhapter 5: Acid-Base Chemistry, SolutionsĬhapter 7: Energy Surfaces and Kinetic Analyses, SolutionsĬhapter 8: Experiments Related to Thermodynamics and Kinetics, SolutionsĬhapter 10: Organic Reaction Mechanisms Part 1: Reactions Involving Additions and/or Eliminations, SolutionsĬhapter 11: Organic Reaction Mechanisms Part II: Substitutions at Aliphatic Centers and Thermal Isomerizations/Rearrangements, SolutionsĬhapter 12: Organotransition Metal Reaction Mechanisms and Catalysis, SolutionsĬhapter 13.
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