锂离子电池热失控蔓延问题研究综述

清华大学,

2016

Investigating the thermal runaway mechanisms of lithium-ion batteries based on thermal analysis database.[J].Xuning Feng;Siqi Zheng;Dongsheng Ren;Xiangming He;Li Wang;Hao Cui;Xiang Liu;Changyong Jin;Fangshu Zhang;Chengshan Xu;Hungjen Hsu;Shang Gao;Tianyu Chen;Yalun Li;Tianze Wang;Hao Wang;Maogang Li;Minggao Ouyang.Applied Energy.2019,

Progress of enhancing the safety of lithium ion battery from the electrolyte aspect.[J].Qingsong Wang;Lihua Jiang;Yan Yu;Jinhua Sun.Nano Energy.2019,

Probing the cooling effectiveness of phase change materials on lithium-ion battery thermal response under overcharge condition.[J].Peifeng Huang;Ankit Verma;Daniel J. Robles;Qingsong Wang;Partha Mukherjee;Jinhua Sun.Applied Thermal Engineering.2018,

Thermal runaway mechanism of lithium ion battery for electric vehicles: A review.[J].Xuning Feng;Minggao Ouyang;Xiang Liu;Languang Lu;Yong Xia;Xiangming He.Energy Storage Materials.2018,

Preventing thermal runaway propagation in lithium ion battery packs using a phase change composite material: An experimental study.[J].Stephen Wilke;Ben Schweitzer;Siddique Khateeb;Said Al-Hallaj.Journal of Power Sources.2017,

An electrochemical-thermal coupled overcharge-to-thermal-runaway model for lithium ion battery.[J].Dongsheng Ren;Xuning Feng;Languang Lu;Minggao Ouyang;Siqi Zheng;Jianqiu Li;Xiangming He.Journal of Power Sources.2017,

Prevent thermal runaway of lithium-ion batteries with minichannel cooling.[J].Jian Xu;Chuanjin Lan;Yu Qiao;Yanbao Ma.Applied Thermal Engineering.2017,

清华大学,

2016

Investigating the thermal runaway mechanisms of lithium-ion batteries based on thermal analysis database.[J].Xuning Feng;Siqi Zheng;Dongsheng Ren;Xiangming He;Li Wang;Hao Cui;Xiang Liu;Changyong Jin;Fangshu Zhang;Chengshan Xu;Hungjen Hsu;Shang Gao;Tianyu Chen;Yalun Li;Tianze Wang;Hao Wang;Maogang Li;Minggao Ouyang.Applied Energy.2019,

Progress of enhancing the safety of lithium ion battery from the electrolyte aspect.[J].Qingsong Wang;Lihua Jiang;Yan Yu;Jinhua Sun.Nano Energy.2019,

Probing the cooling effectiveness of phase change materials on lithium-ion battery thermal response under overcharge condition.[J].Peifeng Huang;Ankit Verma;Daniel J. Robles;Qingsong Wang;Partha Mukherjee;Jinhua Sun.Applied Thermal Engineering.2018,

Thermal runaway mechanism of lithium ion battery for electric vehicles: A review.[J].Xuning Feng;Minggao Ouyang;Xiang Liu;Languang Lu;Yong Xia;Xiangming He.Energy Storage Materials.2018,

Preventing thermal runaway propagation in lithium ion battery packs using a phase change composite material: An experimental study.[J].Stephen Wilke;Ben Schweitzer;Siddique Khateeb;Said Al-Hallaj.Journal of Power Sources.2017,

An electrochemical-thermal coupled overcharge-to-thermal-runaway model for lithium ion battery.[J].Dongsheng Ren;Xuning Feng;Languang Lu;Minggao Ouyang;Siqi Zheng;Jianqiu Li;Xiangming He.Journal of Power Sources.2017,

Prevent thermal runaway of lithium-ion batteries with minichannel cooling.[J].Jian Xu;Chuanjin Lan;Yu Qiao;Yanbao Ma.Applied Thermal Engineering.2017,