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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On the Iterative Censoring for Target Detection in SAR Images
TL;DR: A censoring scheme that iteratively updates the outlier/target maps for target detection in synthetic aperture radar (SAR) images is proposed, and its effectiveness was successfully demonstrated.
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Magnetically ultraresponsive nanoscavengers for next-generation water purification systems
TL;DR: In this article, the authors demonstrate fabrication and deployment of Ag-capped nanoscavengers for disinfection followed by application of an external magnetic field for separation, and also develop and validate a collision-based model for pathogen inactivation.
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A general prelithiation approach for group IV elements and corresponding oxides
TL;DR: Li et al. as discussed by the authors developed a general one-pot metallurgical process to prelithiate group IV elements and their corresponding oxides, yielding pre-lithiation capacity approaching the theoretical specific capacity.
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Inorganic Glue Enabling High Performance of Silicon Particles as Lithium Ion Battery Anode
TL;DR: In this paper, a novel method using amorphous silicon as inorganic glue replacing conventional polymer binder was proposed to solve the loss of contact issue in conventional silicon particle anode and enable successful cycling of various sizes of silicon particles, both nano-particles and micron particles.
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Two-dimensional inorganic molecular crystals.
Wei Han,Pu Huang,Liang Li,Fakun Wang,Peng Luo,Kailang Liu,Xing Zhou,Huiqiao Li,Huiqiao Li,Xiuwen Zhang,Yi Cui,Tianyou Zhai +11 more
TL;DR: The authors show the synthesis of monolayer Sb2O3 molecular crystals on mica substrates by passivator-assisted vapor deposition, which can be extended to the controlled growth of other two-dimensional inorganic molecular crystals and open up opportunities for potential molecular electronic devices.