Christopher J. Butch

发布者:袁敏敏发布时间:2020-06-30浏览次数:1916

Christopher J. Butch

Associate Professor

E-mail:chrisbutch@nju.edu.cn


教育背景:

University of South Carolina, Columbia, SC; Chemical Engineering; B.S.E., 2008
Georgia Institute of Technology, Atlanta, GA; Chemical Engineering; Ph.D., 2014
Tokyo Institute of Technology, Tokyo, JP; Earth Life Science Institute; Research Fellow, 2015–2018


获奖经历:

Georgia Tech Dept. of Chem. and Biochem. Eng. Best Thesis (2014)
ELSI Origins Network (EON) Postdoctoral Fellowship (2015)
Japan Society for the Promotion of Science (JSPS) Postdoctoral Fellowship (2017)


科研成果:
1. Su, G; Yang, S; Ren, J; Butch, C; Filimonov, S; Li, S; Liu, W; Switchable Schottky contacts: Simultaneous
enhanced output current and reduced leakage current, In Prep 2018
2. Butch, CJ; Cleaves, H; Meringer, M; The Small Organic Molecule Space of the Universe In Prep
Submitting to Angewandte 6/10/18
3. Butch, CJ; Cleaves, H; Burger, P; Goodwin, J; Meringer, M; One in a Million: The Chemical Space
of Nucleic Acid-like Molecules In Prep Submitting to PNAS 6/10/18
4. Kaiser, T; Burger, P; Butch, CJ; Pelly, S; Liotta, DC; A Machine Learning Approach for Predicting
HIV Reverse Transcriptase Mutation Susceptibility of Biologically Active Compounds, Journal of
Chemical Information and Modeling, Submitted 2018
5. Nguyen, HH; Kim, MB; Butch, CJ; Kuo, KM; Tahirovic, YA; Jecs, E; Wilson, RR; Miller, EJ; Truax,
VM; Wang, T; Sum, C; Chen, J; Cviic, ME; Shen, DR; Burford, N; Chen, C; Zhang, H; Tebben,
AJ; Schroeder, GM;Wilson, LJ; Liotta, DC; Design of Second-Generation Tetrahydroisoquinoline-
Based CXCR4 Antagonists with Favorable in Vitro ADME Properties, Journal of Medicinal Chemistry,
In Press 2018
6. Chandru, K; Guttenberg, N; Giri, C; Hongo, Y; Butch, C; McKenna, A; Mamajanov, I; Cleaves, H;
Simple prebiotic synthesis of high diversity dynamic combinatorial polyester libraries, Communications
Chemistry, 2018
7. Strong, K; Epplin, M; Basca, J; Butch, CJ; Burger, P; Traynelis, S; Liotta, DC; The Structure Activity
Relationship of a Tetrahydroisoquinoline Class of N-Methyl-D-Aspartate Receptor Modulators
that Potentiates GluN2B-Containing N-Methyl-D-Aspartate Receptors, Journal of Medicinal
Chemistry, 2017
8. Guttenberg, N; Virgo, N; Butch, CJ; Packard, N; Selection First Path to the Origin of Life, arXiv
preprint, 2017
9. Mohammed, F; Chen, K; Mojica, M; Conley, M; Napoline, J; Butch, CJ; Pollet, P; Krishnamurthy, R;
Liotta, CL; A Plausible Prebiotic Origin of Glyoxylate: Non-Enzymatic Transamination Reactions
of Glycine with Formaldehyde, Synlett, 2017
10. Chandru, K; Gilbert, A; Butch, CJ; Aono, M; Cleaves, H; The Abiotic Chemistry of Thiolated Acetate
Derivatives and the Origin of Life, Scientific Reports, 2016
11. Butch CJ; Wang J; Gu J; Vindas R; Crowe J; Pollet P; Gelbaum L; Leszczynski J; Krishnamurthy R;
Liotta CL. pH Controlled Reaction Divergence of Decarboxylation versus Fragmentation in Reactions
of Dihydroxyfumarate with Glyoxylate and Formaldehyde: Parallels to Biological Pathways.
Journal of Physical Organic Chemistry, 2016.
12. Scharf, Caleb; et al. A Strategy for Origins of Life Research. Astrobiology (2015).
13. Butch, CJ; Cope, ED; Pollet, PL; Gelbaum, L; Krishnamurthy, R; & Liotta, CL (2013). Production
of Tartrates by Cyanide Mediated Dimerization of Glyoxylate: A Potential Abiotic Pathway to the
Citric Acid Cycle. Journal of the American Chemical Society, 2013