Y
Yi Cui
Researcher at Stanford University
Publications - 1109
Citations - 245406
Yi Cui is an academic researcher from Stanford University. The author has contributed to research in topics: Anode & Lithium. The author has an hindex of 220, co-authored 1015 publications receiving 199725 citations. Previous affiliations of Yi Cui include KAIST & University of California, Berkeley.
Papers
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Journal ArticleDOI
In-Situ Characterization of Dynamic Morphological and Phase Changes of Selenium-doped Germanium Using a Single Particle Cell and Synchrotron Transmission X-ray Microscopy
Tianyi Li,Xinwei Zhou,Xinwei Zhou,Yi Cui,Melissa L. Meyerson,Jason A. Weeks,C. Buddie Mullins,Vincent De Andrade,Francesco De Carlo,Yuzi Liu,Likun Zhu +10 more
TL;DR: In this article, a single particle cell was developed to perform the in-situ characterization without the interference of inactive materials in the battery electrode as well as the X-ray-induced damage.
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Modulation of gene silencing by Cdc7p via H4 K16 acetylation and phosphorylation of chromatin assembly factor CAF-1 in saccharomyces cerevisiae
TL;DR: The results support a model in which Cdc7p regulates replication-coupled histone modification via a CAC1- dependent mechanism involving H4 K16ac deposition, and thereby silencing, while CAF-1-dependent replication- and repair- coupled chromatin assembly per se are functional in the absence of phosphorylation of CDC7p consensus sites on CAf-1.
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InSitu and Operando Morphology Study of Germanium–Selenium AlloyAnode for Lithium-Ion Batteries
Xinwei Zhou,Xinwei Zhou,Tianyi Li,Yi Cui,Melissa L. Meyerson,Jason A. Weeks,C. Buddie Mullins,Yang Jin,Yuzi Liu,Likun Zhu +9 more
TL;DR: In this paper, a Li-Se-Ge network formed during the first lithiation of a germanium (GeSe) micrometer-sized particle has been reported with good cycling performance and rate capability.
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Zeolite-based Electrolyte Accelerating the Realization of Solid-state Li-Air Battery
TL;DR: In this article, the integrated solid-state lithium-air battery exhibits superior electrochemical stability in ambient air compared to conventional liquid and solid electrolytes, and it offers flexibility, safety and tolerance against abuse.
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Electrical resistance of the current collector controls lithium morphology
Solomon T. Oyakhire,Wenbo Zhang,Andrew Shin,Rong Xu,David T. Boyle,Zhiao Yu,Yusheng Ye,Yufei Yang,James A. Raiford,William C. Hahn,Joel R. Schneider,Yi Cui,Stacey F. Bent +12 more
TL;DR: In this paper , the dependence of lithium metal morphology on electrical resistance of substrates was discovered, enabling them to design an alternative strategy for controlling lithium morphology and improving electrochemical performance, and they reported an anode-free pouch cells using the Al2O3-modified copper that maintain 60 % of their initial discharge capacity after 100 cycles.