Michael J. Aziz
Affiliations: | Materials science and engineering | Harvard University, Cambridge, MA, United States |
Area:
Materials and Energy TechnologiesWebsite:
https://seas.harvard.edu/person/michael-azizGoogle:
"Michael J. Aziz"Mean distance: 12.68 | S | N | B | C | P |
Cross-listing: Materials Tree
Parents
Sign in to add mentorDavid Turnbull | grad student | 1984 | Harvard | |
(Kinetics of crystallization of B₂O₃ under pressure and theory of motion of the crystal-melt interface at wide departures from equilibrium) |
Children
Sign in to add traineeWilliam Bernard Carter | grad student | 1997 | Harvard |
Jonah D. Erlebacher | grad student | 1999 | Harvard |
Craig B. Arnold | grad student | 2000 | Harvard (E-Tree) |
Yucong Huang | grad student | 2001 | Harvard |
Jeffrey M. Warrender | grad student | 2004 | Harvard |
Henry B. George | grad student | 2007 | Harvard |
Byungha Shin | grad student | 2007 | Harvard |
Charbel S. Madi | grad student | 2011 | Harvard |
Jason S. Rugolo | grad student | 2011 | Harvard |
Qichao Hu | grad student | 2012 | Harvard |
Daniel Recht | grad student | 2012 | Harvard |
Brian T. Huskinson | grad student | 2014 | Harvard |
Michael P. Marshak | post-doc | 2015 | Harvard (Chemistry Tree) |
BETA: Related publications
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Publications
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Alfaraidi AM, Kudisch B, Ni N, et al. (2023) Reversible CO Capture and On-Demand Release by an Acidity-Matched Organic Photoswitch. Journal of the American Chemical Society |
Jing Y, Zhao EW, Goulet MA, et al. (2022) In situ electrochemical recomposition of decomposed redox-active species in aqueous organic flow batteries. Nature Chemistry |
Jin S, Wu M, Jing Y, et al. (2022) Low energy carbon capture via electrochemically induced pH swing with electrochemical rebalancing. Nature Communications. 13: 2140 |
Goulet MA, Tong L, Pollack DA, et al. (2021) Correction to "Extending the Lifetime of Organic Flow Batteries via Redox State Management". Journal of the American Chemical Society |
Li Y, Xu Z, Liu Y, et al. (2020) Functioning water-insoluble ferrocenes for aqueous organic flow battery via host-guest inclusion. Chemsuschem |
Gandhi HH, Pastor D, Tran TT, et al. (2020) Chalcogen-hyperdoped germanium for short-wavelength infrared photodetection Aip Advances. 10: 75028 |
Jing Y, Wu M, Wong AA, et al. (2020) In situ electrosynthesis of anthraquinone electrolytes in aqueous flow batteries Green Chemistry. 22: 6084-6092 |
Jin S, Wu M, Gordon RG, et al. (2020) pH swing cycle for CO2 capture electrochemically driven through proton-coupled electron transfer Energy & Environmental Science. 13: 3706-3722 |
Wu M, Jing Y, Wong AA, et al. (2020) Extremely Stable Anthraquinone Negolytes Synthesized from Common Precursors Chem. 6: 1432-1442 |
Jin S, Fell EM, Vina‐Lopez L, et al. (2020) Near Neutral pH Redox Flow Battery with Low Permeability and Long‐Lifetime Phosphonated Viologen Active Species Advanced Energy Materials. 10: 2000100 |