Search Results - "Chen, Zhenlian"

Effect of LiFSI Concentrations To Form Thickness- and Modulus-Controlled SEI Layers on Lithium Metal Anodes by Wang, Muqin, Huai, Liyuan, Hu, Guohong, Yang, Shanshan, Ren, Feihong, Wang, Shuwei, Zhang, Zhenggang, Chen, Zhenlian, Peng, Zhe, Shen, Cai, Wang, Deyu

“…Improving the cyclic stability of lithium metal anodes is of particular importance for developing high-energy-density batteries. In this work, a remarkable…”
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Kinetic characteristics up to 4.8 V of layered LiNi1/3Co1/3Mn1/3O2 cathode materials for high voltage lithium-ion batteries by Zhang, Xianhui, Chen, Zhenlian, Schwarz, Björn, Sigel, Florian, Ehrenberg, Helmut, An, Ke, Zhang, Zhifeng, Zhang, Qinggang, Li, Yantu, Li, Jun

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Synchronously Stabilizing the Interphase of Cathode and Anode Enabling Lithium Metal Batteries via Multiple Electrolyte Additives by Wan, Yi, Bai, Weihang, Wu, Shun, Sun, Che, Chen, Shuaishuai, Qin, Yinping, Wang, Muqin, Chen, Zhenlian, Wang, Mingkui, Wang, Deyu

“…As the most promising high energy density technology, lithium metal batteries are associated with serious interfacial challenges because the electrolytes…”
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First-principle investigation of Jahn―Teller distortion and topological analysis of chemical bonds in LiNiO2 by Chen, Zhenlian, Zou, Huamin, Zhu, Xiaopeng, Zou, Jie, Cao, Jiefeng

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The microstructure and ferroelectric property of Nd-doped multiferroic ceramics Bi0.85Nd0.15FeO3 by Pu, Shizhou, Zheng, He, Chen, Zhenlian, Li, Meiya, Hu, Zhongqiang, Wang, Jianbo, Zou, Huamin

“…The microstructures of Bi0.85Nd0.15FeO3 ceramics were investigated by using transmission electron microscopy (TEM), high-resolution transmission electron…”
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Synergetic effects of blended materials for Lithium-ion batteries by Ren, Heng, Guo, YanQun, Chen, ZhenLian, Zhang, XianHui, Zhang, ZhiFeng, Li, YanTu, Zhang, QingGang, Wu, QingGuo, Li, Jun

“…LiNi（1/3）Co（1/3）Mn（1/3）O2, LiMn2O4 and LiCoO2 are paired to make the blended materials for the cathode of lithium-ion batteries. The factors impacting on the…”
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Unraveling Oxygen Evolution in Li-Rich Oxides: A Unified Modeling of the Intermediate Peroxo/Superoxo-like Dimers by Chen, Zhenlian, Li, Jun, Zeng, Xiao Cheng

“…Peroxo/superoxo is a key intermediate in oxygen evolution/reduction reactions in (electro)­catalysis. However, peroxo/superoxo analogues have aroused…”
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A new method applicable to study solid compounds with multiple polyhedral structures by Chen, Zhenlian, Li, Jun

“…A new direct summation method, named as polyhedron method, is proposed to calculate Madelung energy. This method calculates sums of electrostatic interactions…”
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Degradation Mechanism of Dimethyl Carbonate (DMC) Dissociation on the LiCoO2 Cathode Surface: A First-Principles Study by Huai, Liyuan, Chen, Zhenlian, Li, Jun

“…The degradation mechanism of dimethyl carbonate electrolyte dissociation on the (010) surfaces of LiCoO2 and delithiated Li1/3CoO2 were investigated by…”
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Large Organic Polar Molecules Tailored Electrode Interfaces for Stable Lithium Metal Battery by Li, Zhendong, Chen, Zhenlian, Sun, Nannan, Wang, Deyu, Yao, Xiayin, Peng, Zhe

“…Lithium (Li) metal batteries (LMBs) are deemed as ones of the most promising energy storage devices for next electrification applications. However, the uneven…”
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Improving the Performance of LiNi0.925Co0.065Mn0.01O2 via Ti4+& Nb5+ Co-Modifications by Tang, Yihan, Chen, Shuaishuai, Wan, Ming, Li, Hua, You, Qingliang, Chen, Zhenlian, Peng, Zhe, Wang, Deyu

“…Ni-rich layer-structured materials are some of the most promising cathodes owing to their attractive reversible capacity and cost-effectiveness. When the Ni…”
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Improving the Performance of LiNi 0.925 Co 0.065 Mn 0.01 O 2 via Ti 4+ & Nb 5+ Co-Modifications by Tang, Yihan, Chen, Shuaishuai, Wan, Ming, Li, Hua, You, Qingliang, Chen, Zhenlian, Peng, Zhe, Wang, Deyu

“…Ni-rich layer-structured materials are some of the most promising cathodes owing to their attractive reversible capacity and cost-effectiveness. When the Ni…”
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Prospect and Status of Polyanionic Lithium Cobalt Silicates as High Energy‐Density and Safe Cathode Materials for Lithium‐Ion Batteries by Du, Wenqiang, Zhang, Zhifeng, Chen, Zhenlian, Li, Jun

“…Lithium cobalt silicate Li2CoSiO4 (LCSO) is a promising but challenging high energy‐density cathode for lithium‐ion battery. Herein, recent studies of…”
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Improved stability of Ni-rich cathode by the substitutive cations with stronger bonds by Jiang, Yang, Bi, Yujing, Liu, Meng, Peng, Zhe, Huai, Liyuan, Dong, Peng, Duan, Jianguo, Chen, Zhenlian, Li, Xing, Wang, Deyu, Zhang, Yingjie

“…In this work, we select four types of substitute cations, Ti4+, Al3+, Mg2+ and Zn2+, to compare their influence on LiNi0.8Co0.1Mn0.1O2. After modification, the…”
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P-doping Li2CoSiO4/C cathode material: A joint experimental and theoretical study by Zhang, Zhifeng, Chen, Zhenlian, Zhang, Xianhui, Wu, Dongyang, Li, Jun

“…Lithium cobalt silicate Li2CoSiO4 is a promising but very challenging high energy cathode material for lithium-ion battery. This work presents a systematic…”
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Binding FSI− to Construct a Self‐Healing SEI Film for Li‐Metal Batteries by In situ Crosslinking Vinyl Ionic Liquid by Qin, Yinping, Wang, Hefeng, Zhou, Jingjing, Li, Ruyi, Jiang, Chun, Wan, Yi, Wang, Xiaoyi, Chen, Zhenlian, Wang, Xiaolei, Liu, Yang, Guo, Bingkun, Wang, Deyu

“…The solid electrolyte interphase (SEI) membrane on the Li metal anode tends to breakdown and undergo reconstruction during operation, causing Li metal…”
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Degradation Mechanism of Dimethyl Carbonate (DMC) Dissociation on the LiCoO 2 Cathode Surface: A First-Principles Study by Huai, Liyuan, Chen, Zhenlian, Li, Jun

“…The degradation mechanism of dimethyl carbonate electrolyte dissociation on the (010) surfaces of LiCoO and delithiated Li CoO were investigated by periodic…”
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The mechanism of V-modification in Li2CoSiO4 cathode material for Li-ion batteries: A combined first-principles and experimental study by Huai, Liyuan, Du, Wenqiang, Zhang, Zhifeng, Zhang, Xianhui, Zhang, Zhiyong, Chen, Zhenlian, Wu, Jinlei, Wang, Deyu, Li, Jun

“…Lithium cobalt silicate Li2CoSiO4 (LCSO) is a unique cathode candidate that has the potential to simultaneously achieve both high energy-density and high…”
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P-doping Li^sub 2^CoSiO^sub 4^/C cathode material: A joint experimental and theoretical study by Zhang, Zhifeng, Chen, Zhenlian, Zhang, Xianhui, Wu, Dongyang, Li, Jun

“…Lithium cobalt silicate Li2CoSiO4 is a promising but very challenging high energy cathode material for lithium-ion battery. This work presents a systematic…”
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P-doping Li 2 CoSiO 4 /C cathode material: A joint experimental and theoretical study by Zhang, Zhifeng, Chen, Zhenlian, Zhang, Xianhui, Wu, Dongyang, Li, Jun

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