http://www.hamilton.edu/news/ News From Hamilton en-us http://www.hamilton.edu/news/teaching-awards-presented-to-five-at-class-charter-day http://www.hamilton.edu/news/teaching-awards-presented-to-five-at-class-charter-day Hamilton’s highest awards for teaching were presented on May 4 to five faculty members. Ian Rosenstein,Christopher Vasantkumar, Andrew Dykstra, Heather Buchman and Patty Kloidt were honored at the Class & Charter Day ceremony. Fri, 04 May 2012 13:45:00 EST http://www.hamilton.edu/news/steiman-12-and-woodworth-12-work-on-innovative-chemical-synthesis http://www.hamilton.edu/news/steiman-12-and-woodworth-12-work-on-innovative-chemical-synthesis For organic chemists, improvements in methods of synthesizing molecules can make big differences in the time and material that go into the molecule’s synthesis. This summer, Talia Steiman ’12 and Robert Woodworth ’12 are working with Associate Professor of Chemistry Ian Rosenstein on a chemical synthesis that utilizes a unique method to simplify the process and cut down on waste. Tue, 12 Jul 2011 03:02:00 EST http://www.hamilton.edu/news/vennari-12-studies-molecule-orientation http://www.hamilton.edu/news/vennari-12-studies-molecule-orientation When viewing our existence from a molecular level, one miniscule change can have enormous repercussions. Carbon dioxide, for example, is the natural waste product of our respiration; but carbon monoxide is toxic to us when inhaled. Similarly, a molecule’s orientation can also affect the way the body processes it. This summer, Cara Vennari ’12 is working under Associate Professor of Chemistry Ian Rosenstein to expand ring molecules that have three carbon atoms in them to contain five. Sat, 24 Jul 2010 00:00:00 EST http://www.hamilton.edu/news/kate-otley-12-discovers-the-challenges-of-synthesizing-molecules http://www.hamilton.edu/news/kate-otley-12-discovers-the-challenges-of-synthesizing-molecules Deep in the bowels of the Science Center, Assistant Professor of Chemistry Camille Y. Jones labored away at the project that has become her White Whale: unlocking the secrets of the clathrate hydrates (molecules that form cage-like structures around various guest molecules). But as she ran the spectroscopy on the clathrates, she found the resulting spectra to be extremely complex—too complex to be interpreted. In order to facilitate Jones’ research, Kate Otley ’12, working under Associate Professor of Chemistry Ian Rosenstein, is spending her summer replacing some of the troublesome hydrogen atoms with its isotope, deuterium. Sat, 03 Jul 2010 00:00:00 EST