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个人简介

2007-date Professor, University of Notre Dame 2002-2007 Associate Professor, University of Notre Dame 2001-2002 Senior Lecturer, University of Strathclyde, Glasgow, UK 1995-2002 Royal Society Fellowship, University of Strathclyde, Glasgow, UK 1993-1994 Postdoctoral Researcher, Brown University, RI, USA 1990-1993 1986-1990 Ph.D in Chemistry, University of Strathclyde, Glsagow, UK BSc Honors in Chemistry, University of Strathclyde, Glasgow, UK Positions and Awards 2009-date Department Chair 2012-date Senior Assistant Provost for Internationalization 2011-2013 Provost Fellow 2009-2013 Associate Director of the Center for Sustainable Energy at Notre Dame 2010 2007 Rev. Edmund P. Joyce Award for Excellence in Undergraduate Teaching Fellow of the Royal Society of Chemistry

研究领域

Inorganic Chemistry Organic Chemistry

The Henderson group is interested primarily in synthetic main group chemistry, with an emphasis on the utility and function of highly polar complexes containing the s- and early p-block elements. A central theme is elucidating the structure of compounds containing these elements and unraveling the factors governing their formation. A particular focus is creating materials that will be of use in energy-related chemical research such as separation science and energy storage. For more information on energy-related activity see the Center fo Sustainable Energy at Notre Dame (cSEND) website here. 1. Organometallic Chemistry This program is concentrated on developing a range of group 1, 2 and 13 organometallic reagents to mediate a series of key organic transformations. The approach taken is to first understand the chemistry of the organometallic itself and then use this information to design novel reagents to maximize their reactivity and selectivity in specific reactions. A continuing focus is the synthesis of chemical reagents that are readily made, inexpensive, non-toxic, environmentally benign and useful in a number of important applications. 2. Materials Chemistry Thsi project is involved in developing rational synthetic routes for the preparation of structurally well-defined solid-state materials. This is an area of widespread interest due to the potential of such materials in technologically important applications including catalysis, chemical separations, small molecule storage, optics and electronics. One approach of the Henderson group utilizes specific alkali metal aggregates as building blocks to direct network assembly. This strategy has resulted in the successful preparation of a series of extended network materials whose topologies may be controlled by altering the size and shape of the molecular building blocks. Current work involves preparing functional materials, including chiral frameworks, porous solids and solid-state reagents. 3. Molecular Electronics The continued evolution of modern CMOS processing chips faces many challenges related to shrinking devices sizes. The quantum-dot cellular automata (QCA) paradigm encodes binary information through the charge configuration of closed “cells” of quantum dots through which no current flows. Our approach is to use molecules as dots with localized discrete charges. Switching then occurs by changing the oxidation states of the metails present in the molecules. Our group is also developing new supramolecular synthetic strategies to achieve covalent attachment and orientation of the molecules, as well as self-assembly into multi-cell structures. For more information on Henderson research click on a picture in the image gallery below.

近期论文

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"Effects of the Alkali-Metal Cation Size on Molecular and Extended Structures: Formation of Coordination Polymers and Hybrid Materials in the Homologous Series [(4-Et-C6H4OM)·(diox)n], M = Li, Na, K, Rb, Cs" Bertke, J. A.; Oliver, A. G.; Henderson, K. W. Inorg. Chem. 2012, 51, 1020. "Synthesis and Small Molecule Exchange Studies of a Magnesium Bisformate Metal–Organic Framework: An Experiment in Host–Guest Chemistry for the Undergraduate Laboratory" Rood, J. A.; Henderson, K. W. J. Chem. Educ. 2013, 90, 379–382. "Adsorption of Diferrocenylacetylene on Au(111) Studied by Scanning Tunneling Microscopy" Quardokus, R. C.; Wasio, N. A.; Forrest, R. P.; Lent, C. S.; Corcelli, S. A.; Christie, J. A.; Henderson, K. W. and Kandel, S. A. Physical Chemistry Chemical Physics 2013, 15, 6973. Hydrogen-bonded clusters of ferrocenecarboxylic acid on Au(111)" Quardokus, R. C.; Wasio, N. A.; Christie, J. A.; Henderson, K. W.; Forrest, R. P.; Lent, C. S.; Corcelli, S. A.; Kandel, S. A. Chem. Commun. 2014, 50, 10229. Self-assembly of hydrogen-bonded two-dimensional quasicrystals" Wasio, N. A.; Quardokus, R. C.; Forrest, R. P.; Lent, C. S.; Corcelli, S. A.; Christie, J. A.; Henderson, K. W.; Kandel, S. A. Nature 2014, 507, 86.

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