UM

Browse/Search Results:  1-10 of 10 Help

Selected(0)Clear Items/Page:    Sort:
Molecular Engineering Chemical Pre-lithiation Reagent with Low Redox Potential for Graphite Anode Enables High Coulombic Efficiency Journal article
Li, Shuang, Jiang, Jiangmin, Feng, Qilin, Zheng, Yun, Chen, Yaxin, Ju, Zhicheng, Zhuang, Quanchao, Wu, Kai, Shao, Huaiyu, Zhang, Xiaogang. Molecular Engineering Chemical Pre-lithiation Reagent with Low Redox Potential for Graphite Anode Enables High Coulombic Efficiency[J]. Small, 2024, 2406274.
Authors:  Li, Shuang;  Jiang, Jiangmin;  Feng, Qilin;  Zheng, Yun;  Chen, Yaxin; et al.
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:13.0/13.5 | Submit date:2024/11/05
Chemical Pre-lithiation  Graphite Anode  Initial Coulombic Efficiency  Lithium-ion Batteries  Solid Electrolyte Interface  
Weakly Solvating Ether-Based Electrolyte Constructing Anion-Derived Solid Electrolyte Interface in Graphite Anode toward High-Stable Potassium-Ion Batteries Journal article
Feng, Qilin, Jiang, Jiangmin, Li, Shuang, Zhou, Gaoyu, Kong, Xiangkai, Chen, Yaxin, Zhuang, Quanchao, Ju, Zhicheng. Weakly Solvating Ether-Based Electrolyte Constructing Anion-Derived Solid Electrolyte Interface in Graphite Anode toward High-Stable Potassium-Ion Batteries[J]. Small, 2024, 2406506.
Authors:  Feng, Qilin;  Jiang, Jiangmin;  Li, Shuang;  Zhou, Gaoyu;  Kong, Xiangkai; et al.
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:13.0/13.5 | Submit date:2024/10/10
Graphite Anode  Organic-inorganic Hybrid Sei  Potassium-ion Batteries  Solvation Structures  Weakly Solvating Electrolytes  
Surface chemistry induced robust SEI on graphite surface via soft carbon coating enables fast lithium storage Journal article
Zheng, Biao, Zhou, Wang, Liu, Hui, Chen, Shi, Gao, Peng, Wang, Zhiyong, Liu, Jilei. Surface chemistry induced robust SEI on graphite surface via soft carbon coating enables fast lithium storage[J]. Carbon, 2024, 218, 118729.
Authors:  Zheng, Biao;  Zhou, Wang;  Liu, Hui;  Chen, Shi;  Gao, Peng; et al.
Favorite | TC[WOS]:10 TC[Scopus]:9  IF:10.5/9.2 | Submit date:2024/02/22
Carbon Coating  Electrode-electrolyte Interphases  Fast Charging  Graphite Anodes  Lithium-ion Batteries  
Decoupling Interfacial Kinetics Realizes 5C Fast Charging of Potassium-Ion Batteries Using Graphite Anode Journal article
Zhou, Wang, Mo, Ying, Gao, Peng, Wang, Kexuan, Ke, Jinlong, Liu, Zheng, Chen, Shi, Liu, Jilei. Decoupling Interfacial Kinetics Realizes 5C Fast Charging of Potassium-Ion Batteries Using Graphite Anode[J]. Advanced Functional Materials, 2024, 34(21), 2312994.
Authors:  Zhou, Wang;  Mo, Ying;  Gao, Peng;  Wang, Kexuan;  Ke, Jinlong; et al.
Favorite | TC[WOS]:24 TC[Scopus]:13  IF:18.5/19.6 | Submit date:2024/05/16
Charge Transfer  Extreme Fast Charging  Graphite Anode  Potassium Ions Batteries  Solid Electrolyte Interphase  
Iron-incorporated defective graphite by in-situ electrochemical oxidization for oxygen evolution reaction Journal article
Feng, Jinxian, Zhong, Xiongwei, Chen, Mingpeng, Zhou, Pengfei, Qiao, Lulu, Bai, Haoyun, Liu, Dong, Liu, Di, Chen, Yu Yun, Ip, Weng Fai, Chen, Shi, Ni, Jun, Liu, Detao, Pan, Hui. Iron-incorporated defective graphite by in-situ electrochemical oxidization for oxygen evolution reaction[J]. Journal of Power Sources, 2023, 561, 232700.
Authors:  Feng, Jinxian;  Zhong, Xiongwei;  Chen, Mingpeng;  Zhou, Pengfei;  Qiao, Lulu; et al.
Favorite | TC[WOS]:3 TC[Scopus]:3  IF:8.1/8.3 | Submit date:2023/04/03
Graphite Paper  Defect  Trace-iron Incorporation  Electrochemical Oxidation  Oxygen Evolution Reaction  
Stabilizing SEI by cyclic ethers toward enhanced K+ storage in graphite Journal article
Zhang, Jiesong, Wu, Jian Fang, Wang, Zixing, Mo, Ying, Zhou, Wang, Peng, Yufan, He, Bingchen, Xiao, Kuikui, Chen, Shi, Xu, Chaohe, Liu, Jilei. Stabilizing SEI by cyclic ethers toward enhanced K+ storage in graphite[J]. Journal of Energy Chemistry, 2022, 71, 344-350.
Authors:  Zhang, Jiesong;  Wu, Jian Fang;  Wang, Zixing;  Mo, Ying;  Zhou, Wang; et al.
Favorite | TC[WOS]:16 TC[Scopus]:16  IF:14.0/12.3 | Submit date:2022/05/31
Cyclic Ether  Graphite  Potassium Ion Batteries  Solid Electrolyte Interphase  
Enhanced hydrogen generation from hydrolysis of MgLi doped with expanded graphite Journal article
Chen, Kang, Jiang, Jun, Ouyang, Liuzhang, Wang, Hui, Liu, Jiangwen, Shao, Huaiyu, Zhu, Min. Enhanced hydrogen generation from hydrolysis of MgLi doped with expanded graphite[J]. Journal of Magnesium and Alloys, 2021, 9(6), 2185-2193.
Authors:  Chen, Kang;  Jiang, Jun;  Ouyang, Liuzhang;  Wang, Hui;  Liu, Jiangwen; et al.
Favorite | TC[WOS]:18 TC[Scopus]:20  IF:15.8/14.8 | Submit date:2022/05/13
Air-stable Ability  Hydrogen Generation  Hydrolysis  Mgli-graphite Composites  
Insights on the mechanism of Na-ion storage in expanded graphite anode Journal article
Li,Xiaodan, Liu,Zhibin, Li,Jinliang, Lei,Hang, Zhuo,Wenchen, Qin,Wei, Cai,Xiang, Hui,Kwun Nam, Pan,Likun, Mai,Wenjie. Insights on the mechanism of Na-ion storage in expanded graphite anode[J]. Journal of Energy Chemistry, 2021, 53, 56-62.
Authors:  Li,Xiaodan;  Liu,Zhibin;  Li,Jinliang;  Lei,Hang;  Zhuo,Wenchen; et al.
Favorite | TC[WOS]:43 TC[Scopus]:44  IF:14.0/12.3 | Submit date:2021/03/11
Expanded Graphite  Na-ion Batteries  Operando Raman Spectroscopies  Sodiation-desodiation Process  
Promoting hydrogen generation from the hydrolysis of Mg-Graphite composites by plasma-assisted milling Journal article
Ma, Miaolian, Yang, Lingli, Ouyang, Liuzhang, Shao, Huaiyu, Zhu, Min. Promoting hydrogen generation from the hydrolysis of Mg-Graphite composites by plasma-assisted milling[J]. Energy, 2019, 167, 1205-1211.
Authors:  Ma, Miaolian;  Yang, Lingli;  Ouyang, Liuzhang;  Shao, Huaiyu;  Zhu, Min
Favorite | TC[WOS]:109 TC[Scopus]:120  IF:9.0/8.2 | Submit date:2019/04/08
Graphite  Hydrogen Generation  Hydrolysis  Magnesium  Plasma-assisted Milling  
Preparation of expandable graphite via ozone-hydrothermal process and flame-retardant properties of high-density polyethylene composites Journal article
Shen M.-Y., Li K.-Y., Kuan C.-F., Kuan H.-C., Chen C.-H., Yip M.-C., Chou H.-W., Chiang C.-L.. Preparation of expandable graphite via ozone-hydrothermal process and flame-retardant properties of high-density polyethylene composites[J]. High Performance Polymers, 2014, 26(1), 34-42.
Authors:  Shen M.-Y.;  Li K.-Y.;  Kuan C.-F.;  Kuan H.-C.;  Chen C.-H.; et al.
Favorite | TC[WOS]:4 TC[Scopus]:9 | Submit date:2019/04/08
Composite  Expandable Graphite  Flame Retardant  Hydrothermal Process  Ozone