Department of Chemistry, and Tri-college Bio-Inorganic Chemistry Community, with support from the KINSC, invite you to a talk by Nicolai LehnertDepartment of Chemistry, and Tri-college Bio-Inorganic Chemistry Community, with support from the KINSC, invite you to a talk by Nicolai Lehnerthttp://www.haverford.edu/calendar/details/259865KINSC Hilles 109 2014-02-05T17:00:002014-02-05T18:30:00
February 5, 5:00PM–6:30PM
KINSC Hilles 109
“The first Functional Model System for Flavodiiron Nitric Oxide Reductases”
Nicolai Lehnert is an Associate Professor of Chemistry and Biophysics at the Department of Chemistry, University of Michgan. He studied Chemistry at the Heinrich-Heine-University Düsseldorf, Germany, and obtained his Diploma in Chemistry in 1995. He then moved to the Johannes Gutenberg-University Mainz, Germany, were he received his Ph.D. in 1999 working on model systems for nitrogenase under supervision of Priv.-Doz. Dr. F. Tuczek and Prof. Dr. P. Gütlich. He then joined the group of Prof. Dr. E. I. Solomon at Stanford University, USA for postdoctoral research from 1999 to 2001. In November 2001, he started as a Habilitand (senior research assistant, includes the conduction of independent research) at the Institute of Inorganic Chemistry, Christian-Albrechts-University Kiel, Germany. After completion of his Habilitation (qualification for permanent faculty positions at German Universities) in 2006 he accepted a faculty position at the University of Michigan, where he started in September 2006 as an Assistant Professor. He received a number of awards, including a JSPS Invitation Fellowship (2008), an NSF CAREER Award (2009) and the 3M Non-Tenured Faculty Award (2011). From 2007 – 2011 he was the Dow-Corning Assistant Professor of Chemistry. In 2012 he was promoted to Associate Professor with tenure. His work is focused on the coordination chemistry of nitric oxide and its derivatives as it pertains to biological systems, especially NO sensing and detoxification. A particular expertise of his group is the application of physical and theoretical methods to coordination compounds. In addition, he works on electrocatalysis with applications in alternative energies, and artificial metalloenzymes.
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