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Enabling interfacially compatible and high-voltage-tolerant lithium metal batteries with gradient composited solid-state electrolytes Journal article
He, Honggang, Shang, Jing, Li, Shanshan, Cao, Chunyan, Zhang, Haifeng, Zhang, Wei, Liu, Hui, Feng, Yu, Li, Ruiqing, Chen, Shi, Fei, Bin, Ge, Mingzheng. Enabling interfacially compatible and high-voltage-tolerant lithium metal batteries with gradient composited solid-state electrolytes[J]. Journal of Materials Chemistry A, 2024, 12(34), 22971-22980.
Authors:  He, Honggang;  Shang, Jing;  Li, Shanshan;  Cao, Chunyan;  Zhang, Haifeng; et al.
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:10.7/10.8 | Submit date:2024/09/03
Polymer Electrolyte  Ionic-conductivity  Thermal-properties  Plasticizer  Ec  
Ionic-conductive sodium titanate to boost sodium-ion transport kinetics of hard carbon anode in sodium-ion batteries Journal article
Wang, Feng, Li, Fan, Gong, Hao, Zhang, Yanlei, Liu, Xinyu, Jiang, Zhenming, Chen, Lian, Huang, Jianying, Zhang, Yanyan, Jiang, Yinzhu, Chen, Binmeng, Tang, Yuxin. Ionic-conductive sodium titanate to boost sodium-ion transport kinetics of hard carbon anode in sodium-ion batteries[J]. Journal of Alloys and Compounds, 2024, 981, 173668.
Authors:  Wang, Feng;  Li, Fan;  Gong, Hao;  Zhang, Yanlei;  Liu, Xinyu; et al.
Favorite | TC[WOS]:1 TC[Scopus]:1  IF:5.8/5.3 | Submit date:2024/05/02
Hard Carbon  High Rate  Ionic Conductivity  Sodium Ion Batteries  Sodium Titanate  
Machine learning guided cobalt-doping strategy for solid-state NASICON electrolytes Journal article
Zhou,Pengfei, Zhao,Zirui, Sun,Kaitong, Zhao,Qian, Xiao,Fangyuan, Fu,Ying, Li,Hai Feng. Machine learning guided cobalt-doping strategy for solid-state NASICON electrolytes[J]. European Journal of Inorganic Chemistry, 2023, 26(26), e202300382.
Authors:  Zhou,Pengfei;  Zhao,Zirui;  Sun,Kaitong;  Zhao,Qian;  Xiao,Fangyuan; et al.
Favorite | TC[WOS]:4 TC[Scopus]:5  IF:2.2/2.2 | Submit date:2023/08/03
Cobalt-doping Strategy  Ionic Conductivity  Machine Learning  Nasicon  Solid-state Battery  
MgF2 as an effective additive for improving ionic conductivity of ceramic solid electrolytes Journal article
Pengfei Zhou, Kaitong Sun, Shunping Ji, Zirui Zhao, Ying Fu, Junchao Xia, Si Wu, Yinghao Zhu, Kwun Nam Hui, Hai-Feng Li. MgF2 as an effective additive for improving ionic conductivity of ceramic solid electrolytes[J]. Materials Today Energy, 2023, 32, 101248.
Authors:  Pengfei Zhou;  Kaitong Sun;  Shunping Ji;  Zirui Zhao;  Ying Fu; et al.
Favorite | TC[WOS]:10 TC[Scopus]:12  IF:9.0/8.4 | Submit date:2023/02/07
Solid-state Battery  Solid-state Electrolytes  Nasicon  Ionic Conductivity  Additive  
Nano-silica doped Composite Polymer Chitosan/Poly (ethylene oxide)-Based Electrolyte with High Electrochemical Stability Suitable for Quasi Solid-state Lithium Metal Batteries Journal article
Ai, S., Mazumdar, S., Li, H., Cao, Y., Li, T.. Nano-silica doped Composite Polymer Chitosan/Poly (ethylene oxide)-Based Electrolyte with High Electrochemical Stability Suitable for Quasi Solid-state Lithium Metal Batteries[J]. Journal of Electroanalytical Chemistry, 2021, 895.
Authors:  Ai, S.;  Mazumdar, S.;  Li, H.;  Cao, Y.;  Li, T.
Favorite | TC[WOS]:16 TC[Scopus]:21  IF:4.1/4.0 | Submit date:2022/08/11
Ionic Conductivity  Polymer Electrolyte  Nano-silica  Electrochemical Performance  Solid-state Battery  
Nano-silica doped composite polymer chitosan/poly(ethylene oxide)-based electrolyte with high electrochemical stability suitable for quasi solid-state lithium metal batteries Journal article
Ai, Shun, Mazumdar, Sayantan, Li, Haifeng, Cao, Yongge, Li, Tao. Nano-silica doped composite polymer chitosan/poly(ethylene oxide)-based electrolyte with high electrochemical stability suitable for quasi solid-state lithium metal batteries[J]. Journal of Electroanalytical Chemistry, 2021, 895.
Authors:  Ai, Shun;  Mazumdar, Sayantan;  Li, Haifeng;  Cao, Yongge;  Li, Tao
Favorite | TC[WOS]:16 TC[Scopus]:21  IF:4.1/4.0 | Submit date:2021/10/02
Electrochemical Performance  Ionic Conductivity  Nano-silica  Polymer Electrolyte  Solid-state Battery  
A semi-interpenetrating network ionic composite hydrogel with low modulus, fast self-recoverability and high conductivity as flexible sensor Journal article
Ding, Hongyao, Liang, Xiaoxu, Wang, Qiao, Wang, Miaomiao, Li, Zongjin, Sun, Guoxing. A semi-interpenetrating network ionic composite hydrogel with low modulus, fast self-recoverability and high conductivity as flexible sensor[J]. Carbohydrate Polymers, 2020, 248, 116797.
Authors:  Ding, Hongyao;  Liang, Xiaoxu;  Wang, Qiao;  Wang, Miaomiao;  Li, Zongjin; et al.
Favorite | TC[WOS]:101 TC[Scopus]:107  IF:10.7/10.2 | Submit date:2021/03/09
Hydrogen Bond  Ionic Conductivity  Self-recovery  Semi-interpenetrating Network  Strain Sensor  Tough Hydrogel