David C. Powers, Ph.D.

Affiliations:

2011

Harvard University, Cambridge, MA, United States

Area:

fluorination chemistry for late-stage functionalization of complex natural and unnatural products and bimetallic transition metal redox catalysis

Website:

https://www.chem.tamu.edu/faculty/david-powers/

Google:

"David Powers"

Bio:

Dave was born in Allentown, PA in 1983. He received his undergraduate education in Lancaster, PA at Franklin and Marshall College where he conducted undergraduate research with Professor Phyllis Leber investigating the mechanisms of gas-phase hydrocarbon isomerization reactions. In 2006, Dave moved to Harvard University to pursue graduate studies with Professor Tobias Ritter and investigated the role of metal–metal redox cooperation in C–H oxidation catalysis. After receiving a Ph.D. in 2011, Dave joined Professor Daniel Nocera's research group as an NIH post-doctoral fellow at the Massachusetts Institute of Technology and Harvard University, where he studied molecular photocataylsis for solar energy conversion. In 2015, Dave moved to Texas A&M University as an assistant professor. His research program is based on synthetic organic and inorganic chemistry with an emphasis on developing reaction chemistry for sustainable synthesis.

Mean distance: 7.91

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Parents

Tobias Ritter	grad student	2011	Harvard
(Bimetallic redox chemistry in carbon-heteroatom bond formation.)
Daniel G. Nocera	post-doc	2011-2015	Harvard

Children

Anuvab Das	grad student	2015-2020	Texas A & M
Wen-Yang Gao	post-doc	2017-2020	Texas A & M
Richard R. Thompson	post-doc	2021-2023	Texas A & M

Collaborators

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Publications

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Sur A, Simmons JD, Ezazi AA, et al. (2023) Unlocking Solid-State Organometallic Photochemistry with Optically Transparent, Porous Salt Thin Films. Journal of the American Chemical Society. 145: 25068-25073
Maity A, Frey BL, Powers DC. (2023) Iodanyl Radical Catalysis. Accounts of Chemical Research
Thai P, Frey BL, Figgins MT, et al. (2023) Selective multi-electron aggregation at a hypervalent iodine center by sequential disproportionation. Chemical Communications (Cambridge, England)
Lemon CM, Powers DC, Huynh M, et al. (2022) Ag(III)···Ag(III) Argentophilic Interaction in a Cofacial Corrole Dyad. Inorganic Chemistry
Van Trieste GP, Reibenspies JH, Chen YS, et al. (2022) Oxygen-atom transfer photochemistry of a molecular copper bromate complex. Chemical Communications (Cambridge, England)
Frey BL, Figgins MT, Van Trieste GP, et al. (2022) Iodine-Iodine Cooperation Enables Metal-Free C-N Bond-Forming Electrocatalysis via Isolable Iodanyl Radicals. Journal of the American Chemical Society. 144: 13913-13919
Gao WY, Van Trieste Iii GP, Powers DC. (2020) Synthesis of atomically precise single-crystalline Ru-based coordination polymers. Dalton Transactions (Cambridge, England : 2003)
Baek Y, Das A, Zheng SL, et al. (2020) C-H Amination Mediated by Cobalt Organoazide Adducts and the Cor-responding Cobalt Nitrenoid Intermediates. Journal of the American Chemical Society
Hyun SM, Upadhyay A, Das A, et al. (2020) Kinetic versus thermodynamic metalation enables synthesis of isostructural homo- and heterometallic trinuclear clusters. Chemical Communications (Cambridge, England)
Lemon CM, Maher AG, Mazzotti AR, et al. (2020) Multielectron C-H photoactivation with an Sb(v) oxo corrole. Chemical Communications (Cambridge, England)