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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Journal ArticleDOI
Reversible Multivalent (Monovalent, Divalent, Trivalent) Ion Insertion in Open Framework Materials
Richard Y. Wang,Badri Shyam,Kevin H. Stone,Johanna Nelson Weker,Mauro Pasta,Hyun-Wook Lee,Michael F. Toney,Yi Cui,Yi Cui +8 more
TL;DR: An open framework nanomaterial, copper hexacyanoferrate, in the Prussian Blue family is presented that allows for the reversible insertion of a wide variety of monovalent, divalent, and trivalent ions in aqueous solution beyond that achieved in previous studies.
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An Autotransferable g-C 3 N 4 Li + -Modulating Layer toward Stable Lithium Anodes
TL;DR: The abundant nitrogen species within g-C3 N4 nanosheets can form transient LiN bonds to powerfully stabilize the lithium-ion flux and thus enable a CE over 99% for 900 cycles and smooth deposition at high current densities and capacities, surpassing most previous works.
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Strong texturing of lithium metal in batteries.
TL;DR: It is shown that Li-metal texturing occurs during electrochemical deposition, which governs the morphological change of the Li anode, which provides significant insight for future lithium anode materials design in high-energy-density batteries.
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Improved solid oxide fuel cell performance with nanostructured electrolytes.
TL;DR: A corrugated thin-film electrolyte membrane is fabricated by nanosphere lithography and atomic layer deposition to reduce the polarization and ohmic losses at low temperatures and achieve a power density of 1.34 W/cm(2) at 500 °C.
Improved Solid Oxide Fuel Cell Performance with Nanostructured
TL;DR: In this article, a micro-SOFC electrolyte membrane showed a hexagonal-pyramid array nanostructure and achieved a power density of 1.34 W/cm 2 at 500 C.