Yi Cui
Affiliations: | 2005- | Materials Science and Engineering | Stanford University, Palo Alto, CA |
Area:
nanomaterials for energy storage, photovoltaics, topological insulators, biology and environmentWebsite:
https://mse.stanford.edu/people/yi-cuiGoogle:
"Yi Cui"Bio:
https://profiles.stanford.edu/yi-cui
https://energy.stanford.edu/people/speaker/yi-cui
http://www.sciencemag.org/news/2016/05/how-build-better-battery-through-nanotechnology
http://scholar.google.com/citations?user=lNmR2vAAAAAJ&hl=en
http://web.stanford.edu/group/cui_group/
http://web.stanford.edu/group/cui_group/bio.htm
Mean distance: 7.41
Parents
Sign in to add mentor| Charles M. Lieber | grad student | 1998-2002 | Harvard | |
| (Semiconductor nanowires for nanotechnology: Synthesis, properties, nanoelectronics, nanophotonics, and nanosensors.) | ||||
| A. Paul Alivisatos | post-doc | 2002-2005 | UC Berkeley | |
Children
Sign in to add trainee| John Tianci Li | grad student | 2021- | Stanford (Neurotree) |
| Candace K. Chan | grad student | 2005-2009 | Stanford |
| Xing Xie | grad student | 2008-2014 | Stanford |
| Chong Liu | grad student | 2009-2015 | Stanford (E-Tree) |
| Po-Chun Hsu | grad student | 2010-2016 | Stanford (E-Tree) |
| Dingchang Lin | grad student | 2013-2018 | Stanford |
| Yayuan Liu | grad student | 2014-2019 | Stanford |
| Rong Xu | post-doc | (E-Tree) | |
| Yangying Zhu | post-doc | (E-Tree) | |
| Jun Chen | post-doc | 2016- | Stanford |
| Hailin Peng | post-doc | 2005-2009 | Stanford |
| Guihua Yu | post-doc | 2009-2012 | Stanford |
| Kristie Jo Koski | post-doc | 2010-2013 | Stanford |
| Fang Liu | post-doc | 2019 | Stanford |
| Jun Chen | post-doc | 2016-2019 | Stanford |
| Jing Tang | post-doc | 2017-2023 | Stanford (Neurotree) |
| Hongtao Yuan | research scientist | (Physics Tree) |
Collaborators
Sign in to add collaborator| Xiaopeng Bai | collaborator | 2016- | |
| Michael T Tang | collaborator | 2016-2020 | Stanford |
BETA: Related publications
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Publications
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| Kim SC, Pan JA, Shah A, et al. (2025) Correlating Solvation Free Energy to Electrolyte Properties for Lithium Metal Batteries. Nano Letters |
| Xiao X, Greenburg LC, Li Y, et al. (2025) Epitaxial Electrodeposition of Zinc on Different Single Crystal Copper Substrates for High Performance Aqueous Batteries. Nano Letters |
| D'Acunto G, Shuchi SB, Zheng X, et al. (2025) Enhanced ALD Nucleation on Polymeric Separator for Improved Li-S Batteries. Acs Applied Materials & Interfaces. 17: 7007-7018 |
| Zhang E, Chen Y, Holoubek J, et al. (2025) Monofluorinated acetal electrolyte for high-performance lithium metal batteries. Proceedings of the National Academy of Sciences of the United States of America. 122: e2418623122 |
| Yu W, Lin KY, Boyle DT, et al. (2024) Electrochemical formation of bis(fluorosulfonyl)imide-derived solid-electrolyte interphase at Li-metal potential. Nature Chemistry |
| Chen Y, Liao SL, Gong H, et al. (2024) Hyperconjugation-controlled molecular conformation weakens lithium-ion solvation and stabilizes lithium metal anodes. Chemical Science |
| Yang Y, Biswas S, Xu R, et al. (2024) Capacity recovery by transient voltage pulse in silicon-anode batteries. Science (New York, N.Y.). 386: 322-327 |
| Tzeng YK, Ke F, Jia C, et al. (2024) Improving the creation of SiV centers in diamond via sub-μs pulsed annealing treatment. Nature Communications. 15: 7251 |
| Zhang W, Yu A, Mao H, et al. (2024) Dynamic Bubbling Balanced Proactive CO Capture and Reduction on a Triple-Phase Interface Nanoporous Electrocatalyst. Journal of the American Chemical Society |
| Tan S, Kuai D, Yu Z, et al. (2024) Evolution and Interplay of Lithium Metal Interphase Components Revealed by Experimental and Theoretical Studies. Journal of the American Chemical Society |