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Wanli Yang
Researcher at Lawrence Berkeley National Laboratory
Publications - 460
Citations - 22376
Wanli Yang is an academic researcher from Lawrence Berkeley National Laboratory. The author has contributed to research in topics: Absorption spectroscopy & Redox. The author has an hindex of 68, co-authored 415 publications receiving 15999 citations. Previous affiliations of Wanli Yang include Shenzhen University & Soochow University (Suzhou).
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Journal ArticleDOI
Cascade anchoring strategy for general mass production of high-loading single-atomic metal-nitrogen catalysts.
Lu Zhao,Yun Zhang,Yun Zhang,Lin-Bo Huang,Xiaozhi Liu,Qinghua Zhang,Chao He,Ze-Yuan Wu,Linjuan Zhang,Jinpeng Wu,Wanli Yang,Lin Gu,Jin-Song Hu,Li-Jun Wan +13 more
TL;DR: A general cascade anchoring strategy for the mass production of a series of metal-Nx SACs with a metal loading up to 12.1 wt%, which paves a universal way to produce stable M-NC SAC with high-density metal- Nx sites for diverse high-performance applications.
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Electric-field control of tri-state phase transformation with a selective dual-ion switch
Nianpeng Lu,Pengfei Zhang,Qinghua Zhang,Ruimin Qiao,Qing He,Hao-Bo Li,Yujia Wang,Jingwen Guo,Ding Zhang,Zheng Duan,Zhuolu Li,Meng Wang,Shuzhen Yang,Mingzhe Yan,Elke Arenholz,Shuyun Zhou,Wanli Yang,Lin Gu,Ce-Wen Nan,Jian Wu,Yoshinori Tokura,Pu Yu,Pu Yu +22 more
TL;DR: It is shown that controlling the insertion and extraction of oxygen and hydrogen ions independently of each other can direct reversible phase transformations among three different material phases, opening up opportunities for the electric-field control of multistate phase transformations with rich functionalities.
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Polymers with Tailored Electronic Structure for High Capacity Lithium Battery Electrodes
Gao Liu,Shidi Xun,Nenad Vukmirović,Xiangyun Song,Paul Olalde-Velasco,Honghe Zheng,Vince Battaglia,Lin-Wang Wang,Wanli Yang +8 more
TL;DR: A conductive polymer is developed for solving the long-standing volume change issue in lithium battery electrodes and Composite anodes based on this polymer and commercial Si particles exhibit 2100 mAh g -1 in Si after 650 cycles without any conductive additive.
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Rhombohedral prussian white as cathode for rechargeable sodium-ion batteries.
Long Wang,Jie Song,Ruimin Qiao,L. Andrew Wray,L. Andrew Wray,L. Andrew Wray,Muhammed A. Hossain,Yi-De Chuang,Wanli Yang,Yuhao Lu,David H. Evans,Jong Jan Lee,Sean Vail,Xin Zhao,Motoaki Nishijima,Seizoh Kakimoto,John B. Goodenough +16 more
TL;DR: A novel air-stable sodium iron hexacyanoferrate with rhombohedral structure is demonstrated to be a scalable, low-cost cathode material for sodium-ion batteries exhibiting high capacity, long cycle life, and good rate capability.
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Trace doping of multiple elements enables stable battery cycling of LiCoO2 at 4.6 V
Jie-Nan Zhang,Qinghao Li,Qinghao Li,Chuying Ouyang,Xiqian Yu,Mingyuan Ge,Xiaojing Huang,Enyuan Hu,Chao Ma,Shaofeng Li,Ruijuan Xiao,Wanli Yang,Yong S. Chu,Yijin Liu,Yu Huigen,Xiao-Qing Yang,Xuejie Huang,Liquan Chen,Hong Li +18 more
TL;DR: LiCoO2 is a dominant cathode material for Li-ion (Li-ion) batteries due to its high volumetric energy density, which could potentially be further improved by charging to high voltages as discussed by the authors.