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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  
A cubic perovskite fluoride anode with the surface conversion reactions dominated mechanism for advanced lithium-ion batteries Journal article
Ju, Zhicheng, Feng, Qilin, Wang, Xinfeng, Zhuang, Quanchao, Shi, Yueli, Jiang, Jiangmin. A cubic perovskite fluoride anode with the surface conversion reactions dominated mechanism for advanced lithium-ion batteries[J]. Nanotechnology, 2024, 35(50), 505601.
Authors:  Ju, Zhicheng;  Feng, Qilin;  Wang, Xinfeng;  Zhuang, Quanchao;  Shi, Yueli; et al.
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:2.9/2.8 | Submit date:2024/11/05
Lithium-ion Batteries  Perovskite Fluorides  Cubic Iron Fluoride  Carbon Nanotubes  Distribution Of Relaxation Times  
Predicting doping strategies for ternary nickel–cobalt–manganese cathode materials to enhance battery performance using graph neural networks Journal article
Zhao, Zirui, Luo, Dong, Wu, Shuxing, Sun, Kaitong, Lin, Zhan, Li, Hai Feng. Predicting doping strategies for ternary nickel–cobalt–manganese cathode materials to enhance battery performance using graph neural networks[J]. Journal of Energy Storage, 2024, 98, 112982.
Authors:  Zhao, Zirui;  Luo, Dong;  Wu, Shuxing;  Sun, Kaitong;  Lin, Zhan; et al.
Favorite | TC[WOS]:2 TC[Scopus]:2  IF:8.9/9.0 | Submit date:2024/08/05
Doping Strategies  Electrochemical Performance  Graph Neural Networks  Lithium-ion Batteries  Ternary Nickel–cobalt–manganese Cathode Materials  
Cubic iron fluoride anchored on Ti3C2Tx MXene as superior anode for high-performance lithium-ion batteries Journal article
Jiang, Jiangmin, Wang, Zhan, Wang, Xinfeng, Wang, Shijing, Li, Shuang, Zhuang, Quanchao, Shao, Huaiyu. Cubic iron fluoride anchored on Ti3C2Tx MXene as superior anode for high-performance lithium-ion batteries[J]. Journal of Power Sources, 2024, 613, 234850.
Authors:  Jiang, Jiangmin;  Wang, Zhan;  Wang, Xinfeng;  Wang, Shijing;  Li, Shuang; et al.
Favorite | TC[WOS]:1 TC[Scopus]:0  IF:8.1/8.3 | Submit date:2024/07/04
Composite Materials  Cubic Iron Fluoride  Lithium-ion Batteries  Perovskite Fluorides  Ti3c2tx Mxene  
Pre-Lithiation Technology for Rechargeable Lithium-Ion Batteries: Principles, Applications, and Perspectives Journal article
Li, Shuang, Jiang, Jiangmin, Zheng, Yun, Ju, Zhicheng, Zhuang, Quanchao, Wu, Kai, Shao, Huaiyu, Zhang, Xiaogang. Pre-Lithiation Technology for Rechargeable Lithium-Ion Batteries: Principles, Applications, and Perspectives[J]. Batteries and Supercaps, 2024, 7(7).
Authors:  Li, Shuang;  Jiang, Jiangmin;  Zheng, Yun;  Ju, Zhicheng;  Zhuang, Quanchao; et al.
Favorite | TC[WOS]:0 TC[Scopus]:2 | Submit date:2024/08/05
Coulombic efficiency  irreversible capacity loss  lithium-ion batteries  pre-lithiation technology  solid electrolyte interface  
Flexible Deep Learning-Based State of Health Estimation of Lithium-Ion Batteries with Features Extracted from Partial Charging Curves Journal article
Lai, Rucong, Li, Xiaoyu, Wang, Jie. Flexible Deep Learning-Based State of Health Estimation of Lithium-Ion Batteries with Features Extracted from Partial Charging Curves[J]. Batteries, 2024, 10(5), 164.
Authors:  Lai, Rucong;  Li, Xiaoyu;  Wang, Jie
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:4.6/5.3 | Submit date:2024/06/05
Deep Learning  Lithium-ion Batteries  Partial Charging Curves  State Of Health  
A Battery-Input Three-Mode Buck–Boost Hybrid DC–DC Converter With 97.6% Peak Efficiency Journal article
Zhao, Shuangxing, Zhan, Chenchang, Lu, Yan. A Battery-Input Three-Mode Buck–Boost Hybrid DC–DC Converter With 97.6% Peak Efficiency[J]. IEEE JOURNAL OF SOLID-STATE CIRCUITS, 2024, 59(5), 1567-1577.
Authors:  Zhao, Shuangxing;  Zhan, Chenchang;  Lu, Yan
Favorite | TC[WOS]:3 TC[Scopus]:1  IF:4.6/5.6 | Submit date:2024/02/22
33-v Devices  Flying Capacitor  Lithium-ion (Li-ion) Batteries  Low Electromagnetic Interference (Emi)  Soft-startup Circuits  Three-mode Non-inverting Buck–boost Hybrid Converter (3m-bbhc)  
Pre-Lithiation Technology for Rechargeable Lithium-Ion Batteries: Principles, Applications, and Perspectives Review article
2024
Authors:  Li, Shuang;  Jiang, Jiangmin;  Zheng, Yun;  Ju, Zhicheng;  Zhuang, Quanchao; et al.
Favorite | TC[WOS]:0 TC[Scopus]:2  IF:5.1/5.5 | Submit date:2024/05/16
Coulombic Efficiency  Irreversible Capacity Loss  Lithium-ion Batteries  Pre-lithiation Technology  Solid Electrolyte Interface  
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  
Fast Energy Storage of SnS2 Anode Nanoconfined in Hollow Porous Carbon Nanofibers for Lithium-Ion Batteries Journal article
Liang, Fanghua, Dong, Huilong, Dai, Jiamu, He, Honggang, Zhang, Wei, Chen, Shi, Lv, Dong, Liu, Hui, Kim, Ick Soo, Lai, Yuekun, Tang, Yuxin, Ge, Mingzheng. Fast Energy Storage of SnS2 Anode Nanoconfined in Hollow Porous Carbon Nanofibers for Lithium-Ion Batteries[J]. Advanced Science, 2024, 11(4), 2306711.
Authors:  Liang, Fanghua;  Dong, Huilong;  Dai, Jiamu;  He, Honggang;  Zhang, Wei; et al.
Favorite | TC[WOS]:24 TC[Scopus]:19  IF:14.3/16.3 | Submit date:2024/02/22
Charge Carrier Transfer  Hollow Porous Carbon Nanofibers  Lithium-ion Batteries  Sns2 Nanosheets  Ultrahigh Charging Rates