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 | S | N | B | C | P |
Parents
Sign in to add mentorCharles 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 traineeJohn 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 |
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 collaboratorXiaopeng Bai | collaborator | 2016- | |
Michael T Tang | collaborator | 2016-2020 | Stanford |
BETA: Related publications
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Publications
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Gao X, Zheng X, Ye Y, et al. (2024) Lithiophilic Hydrogen-Substituted Graphdiyne Aerogels with Ionically Conductive Channels for High-Performance Lithium Metal Batteries. Nano Letters |
Kim SC, Gao X, Liao SL, et al. (2024) Solvation-property relationship of lithium-sulphur battery electrolytes. Nature Communications. 15: 1268 |
Wu Y, Wang BY, Yu Y, et al. (2024) Interlayer engineering of FeGeTe: From 3D superlattice to 2D monolayer. Proceedings of the National Academy of Sciences of the United States of America. 121: e2314454121 |
Zheng X, Paul S, Moghimi L, et al. (2023) Correlating chemistry and mass transport in sustainable iron production. Proceedings of the National Academy of Sciences of the United States of America. 120: e2305097120 |
Peng Y, Lai JC, Xiao X, et al. (2023) Colorful low-emissivity paints for space heating and cooling energy savings. Proceedings of the National Academy of Sciences of the United States of America. 120: e2300856120 |
Oyakhire ST, Liao SL, Shuchi SB, et al. (2023) Proximity Matters: Interfacial Solvation Dictates Solid Electrolyte Interphase Composition. Nano Letters |
Gao X, Yu Z, Wang J, et al. (2023) Electrolytes with moderate lithium polysulfide solubility for high-performance long-calendar-life lithium-sulfur batteries. Proceedings of the National Academy of Sciences of the United States of America. 120: e2301260120 |
Zheng Y, Michalek L, Liu Q, et al. (2023) Environmentally stable and stretchable polymer electronics enabled by surface-tethered nanostructured molecular-level protection. Nature Nanotechnology |
Gu Y, You EM, Lin JD, et al. (2023) Resolving nanostructure and chemistry of solid-electrolyte interphase on lithium anodes by depth-sensitive plasmon-enhanced Raman spectroscopy. Nature Communications. 14: 3536 |
Sayavong P, Zhang W, Oyakhire ST, et al. (2023) Dissolution of the Solid Electrolyte Interphase and Its Effects on Lithium Metal Anode Cyclability. Journal of the American Chemical Society |