and SB degrees in Electrical Engineering and Computer Science from the Massachusetts Institute of Technology. Utilizing the architecture and design principles presented by biologically relevant structures and processes, we seek to discover new reactions and to apply new principles to the selective synthesis of complex molecules.As part of this program, we bring to bear the full arsenal of modern synthetic chemistry. “Enantioselective Intermolecular C-O Bond Formation in the Desymmetrization of Diarylmethines Employing a Guanidinylated Peptide-Based Catalyst” Chinn, A. J.; Kim, B.; Kwon, Y.; Miller, S. J. Complex molecule synthesis is one of the key disciplines of modern chemical research. When not in the office, Scott is an avid poker player, golfer and runner. The development of new methods for the synthesis and derivatization of such structures is a multi-dimensional activity involving reaction design, development, and application. View Scott Miller’s profile on LinkedIn, the world's largest professional community. Research in our group focuses on each of these aspects of chemical synthesis. Divisional Director for Science, Yale University (2015-2017) Award for Creative Work in Synthetic Organic Chemistry, American Chemical Society Fellow of the American Association for the Advancement of Science Yoshimasa Hirata Memorial Gold Medal, Nagoya University Boehringer-Ingelheim Cares Foundation Unrestricted Research GrantRobert Burns Woodward Visiting Scholar, Harvard University Arthur C. Cope Scholar Award, American Chemical SocietyNational Science Foundation Postdoctoral Fellowship National Science Foundation Predoctoral Fellowship Thomas T. Hoopes Prize for Outstanding Senior Thesis, Harvard College National Science Foundation Workshop on Organic Synthesis, Co-Chair National Institutes of Health Study Section, Chair (Synthetic and Biological Chemistry B)Gordon Research Conference on Stereochemistry, Co-Vice Chair/Co-Chair Board of Chemical Sciences and Technology of the National Academies, Member National Institutes of Health Study Section, Member (Synthetic and Biological Chemistry B) These studies are enabling access to an expansive set of biologically inspired natural product analogs. Scott has 1 job listed on their profile. The development of new methods for the synthesis and derivatization of such structures is a multi-dimensional activity involving reaction design, development, and application. In addition, we are investigating the development of new catalysts for the selective functionalization of these molecules.A particular interest is in the catalytic modification of natural products. Complex molecule synthesis is one of the key disciplines of modern chemical research. Scott has 8 jobs listed on their profile. “Applications of Non-Enzymatic Catalysts to the Alteration of Natural Products” Shugrue, C. R.; Miller, S. J. Research in our group focuses on each of these aspects of chemical synthesis. 2008-Present: Irénée du Pont Professor of Chemistry, Yale UniversityDivisional Director for Science, Yale University (2015-2017)Chair, Department of Chemistry, Yale University (2009-2015)2006-Present: Professor of Chemistry, Yale University2002-2006: Professor of Chemistry, Boston College2001-2002: Associate Professor of Chemistry, Boston College1996-2001: Assistant Professor of Chemistry, Boston College Employing rational design, combinatorial screening and a constantly evolving collective intuition, we are working to discover new chemical transformations that enable the rapid synthesis of stereochemically complex structures.
See the complete profile on LinkedIn and discover Scott… Scott has an MBA from Harvard Business School and M.Eng. As a result, mechanistic analysis is at the heart of many of our studies.Research Innovation Award, Research Corporation, 1998“Diversity of Secondary Structure in Catalytic Peptides with beta-Turn-Biased Sequences” Metrano, A. J.; Abascal, N. C.; Mercado, B. Q.; Paulson, E. K.; Hurtley, A. E.; Miller S. J.