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.
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Crystalline-amorphous nanowires for battery electrodes
TL;DR: In this paper, a battery electrode is produced using a single growth condition to promote growth of crystalline nanowires on a conductive substrate and of the first material, and promote, by maintaining the growth condition, growth of an amorphous portion that surrounds the crystalline wires.
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Few-layer Nanoplates of Bi2Se3 and Bi2Te3 with Highly Tunable Chemical Potential
TL;DR: In this paper, the synthesis and characterizations of ultrathin Bi2Te3 and Bi2Se3 nanoplates with thickness down to 3 nm (3 quintuple layers) via catalyst-free vapor-solid (VS) growth mechanism were reported.
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One nanometer resolution electrical probe via atomic metal filament formation.
TL;DR: The formation of the atomic filament is highly controllable and reproducible and can be easily integrated to existing AFM tip technologies to produce the next generation of high-resolution electrical and other scanning probes.
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Electrolyte-Resistant Dual Materials for the Synergistic Safety Enhancement of Lithium-Ion Batteries.
Lien-Yang Chou,Yusheng Ye,Hiang Kwee Lee,Wenxiao Huang,Rong Xu,Xin Gao,Renjie Chen,Feng Wu,Chia-Kuang Tsung,Yi Cui,Yi Cui +10 more
TL;DR: In this paper, a method to balance flame retardancy and electrochemical performance by coating an electrolyte-insoluble flame retardant (FR) on commercial battery separators was proposed.
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Bifacial solar cell with SnS absorber by vapor transport deposition
Artit Wangperawong,Po-Chun Hsu,Yesheng Yee,Steven M. Herron,Bruce M. Clemens,Yi Cui,Stacey F. Bent +6 more
TL;DR: In this article, a bifacial SnS solar cell consisting of glass/FTO/SnS/CdS/ZnO/ITO demonstrated front and back-side power conversion efficiencies of 1.2% and 0.2%, respectively.