个人简介

Scott Hopkins carries out research in the area of physical chemistry. His laboratory is a multi-disciplinary environment where his research group employs computational and experimental methods to study the structures and reactivities of small nanocluster systems. Clusters Quantum chemistry Spectroscopy Mass spectrometry Photodissociation CSC Physical & Theoretical Chemistry Division Executive Committee (member-at-large), 2016-19 “Interaction between light and Matter” initiative with University of Bordeaux, UW Representative, 2015-17 Trent Conference on Mass Spectrometry, Session Chair, 2014-15 President’s Advisory Committee on Convocation Speakers, member, 2013-15 UW Symposium on Chemical Physics, Organizer, 2012-15 UW Symposium on Chemical Physics, Session Chair, 2012-15 Director of YouTube Channel “CPPC – Chem Phys Phys Chem”, 2014-2015 SOUSCC Physical & Theoretical Chemistry Division, Prize Judge, 2012 Virtual Researcher on Call (VROC) outreach program, 2012 CSC Physical & Theoretical Chemistry Division, poster judge, 2012 2006 Ph.D., University of New Brunswick, NB 2001 B.Sc., University of New Brunswick, NB

研究领域

Scott Hopkins' Laboratory for Spectroscopy and Dynamics Research employs experimental spectroscopy and chemical dynamics techniques in conjunction with high level quantum chemical calculations to decipher the nature of nanocluster systems. His research focuses on three key areas:  velocity map imaging, structure and reactivities of nanoclusters, and high-resolution spectroscopy.

Our laboratory is a multi-disciplinary research environment where we employ computational and experimental methods to study the structures and reactivities of small nanocluster systems. For a more detailed description of our current research directions, please browse through the content in the Research tab on the left. Our research group is interested in understanding how condensed phase properties evolve from the properties of the atomic and molecular constituents. We employ a combined computational and experimental approach to study the structures and dynamics of small nanoclusters, with the view that such studies will provide a better basis for (amongst other things) the development of new nanostructured materials. Please visit the research group website for a more detailed description of some of the science projects we are currently working on.

近期论文

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Ziegler, B., Lecours, M. J., Marta, R. A., Featherstone, J., Fillion, E., Hopkins, W. S., Steinmetz, V., Keddie, N., O’Hagan, D.,* McMahon, T. B.,* Janus Face Aspect of All-cis 1,2,3,4,5,6-Hexafluorocyclohexane Dictates Remarkable Anion and Cation Interactions in the Gas Phase, J. Am. Chem. Soc., 2016, DOI: 10.1021/jacs.6b02856 (Cover Article) Liu, C., Le Blanc, J. C. Y., Shields, J., Janiszewski, J. S., Ieritano, C., Ye, G. F., Hawes, G. F., Hopkins, W. S.,* Campbell, J. L.,* Using differential mobility spectrometry to measure ion solvation: An examiniation of the roles of solvents and ion structures in separating quinoline-based drugs, The Analyst, 2015, 140, 6897 – 6903 (Cover Article) Hopkins, W. S.,* Carr, P. J. J., Huang, D., Bishop, K. P., Burt, M., McMahon, T. B., Steinmetz, V., Fillion, E., Infrared-driven Charge-transfer in Transition Metal B12F12 Clusters, The Journal of Physical Chemistry A, 2015, 119(31), 8469 – 8475 (Cover Article) Hopkins, W. S.,* Determining the Properties of Gas-phase Clusters, Molecular Physics, 2015, 113(21), 3151 – 3158 (Invited, Cover Article) Hopkins, W. S.,* Marta, R. A., McMahon, T. B.,* Mode-specific fragmentation of amino acid-containing clusters, Physical Chemistry Chemical Physics, 2015, 17(43), 28548 – 28555 (Cover Article)