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ERG Group Members |
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E-mail: plumleyj@duq.edu |
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Josh Plumley Ph.D. candidate 2004-current |
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Josh Plumley, Ph.D. Candidate, Duquesne University. Josh joined the Ph.D. program Fall 2004 after graduating from West Virginia Wesleyan College with a B.S. in Chemistry. Josh’s current research involves the understanding of how stereoelectronic factors influence the reaction rate and stereoselectivity of organic reactions in solution and at surfaces. |
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Candidates for Doctor of Philosophy, Ph.D. |
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E-mail: plumleyj@duq.edu |
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Saichand Pakkala Ph.D. candidate 2007-current |
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Josh Plumley, Ph.D. Candidate, Duquesne University. Josh joined the Ph.D. program Fall 2004 after graduating from West Virginia Wesleyan College with a B.S. in Chemistry. Josh’s current research involves the understanding of how stereoelectronic factors influence the reaction rate and stereoselectivity of organic reactions in solution and at surfaces. |
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E-mail: plumleyj@duq.edu |
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Joe Rosmus Ph.D. candidate 2008-current |
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Josh Plumley, Ph.D. Candidate, Duquesne University. Josh joined the Ph.D. program Fall 2004 after graduating from West Virginia Wesleyan College with a B.S. in Chemistry. Josh’s current research involves the understanding of how stereoelectronic factors influence the reaction rate and stereoselectivity of organic reactions in solution and at surfaces. |
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E-mail: plumleyj@duq.edu |
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Kyle Reeping B.S. candidate 2006-current |
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Josh Plumley, Ph.D. Candidate, Duquesne University. Josh joined the Ph.D. program Fall 2004 after graduating from West Virginia Wesleyan College with a B.S. in Chemistry. Josh’s current research involves the understanding of how stereoelectronic factors influence the reaction rate and stereoselectivity of organic reactions in solution and at surfaces. |
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E-mail: plumleyj@duq.edu |
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Jay Thorne B.S. candidate 2008-current |
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Josh Plumley, Ph.D. Candidate, Duquesne University. Josh joined the Ph.D. program Fall 2004 after graduating from West Virginia Wesleyan College with a B.S. in Chemistry. Josh’s current research involves the understanding of how stereoelectronic factors influence the reaction rate and stereoselectivity of organic reactions in solution and at surfaces. |
