Using inorganic fibrous membranes as protective layers has yielded success in suppressing dendrite growth.However,conventional fibrous membranes usually have large voids and low affinity for Li,promoting inhomogeneous...Using inorganic fibrous membranes as protective layers has yielded success in suppressing dendrite growth.However,conventional fibrous membranes usually have large voids and low affinity for Li,promoting inhomogeneous charge distribution and allowing some dendrites to grow.Herein,we introduce a highly aligned TiO_(2)/SiO_(2)(A-TS)electrospun nanofiber membrane as a protective layer for the Li metal anode.The A-TS membrane is fabricated by a custom-made electrospinning system with an automatic fiber alignment collector that allows control of the fibers’orientation.At the scale of the individual fibers,their high binding energies with Li can attract more“dead”Li by reacting with the SiO_(2) component of the composite,avoiding uncontrollable deposition on the metal anode.At the membrane scale,these highly ordered structures achieve homogeneous contact and charge distribution on the Li metal surface,leaving no vulnerable areas to nucleate dendrite formation.Additionally,the excellent mechanical and thermal stability properties of the A-TS membrane prevent any potential puncturing by dendrites or thermal runaway in a battery.Hence,an A-TS@Li anode exhibits stable cycling performance when used in both Li-S and Li-NCM811 batteries,highlighting significant reference values for the future design and development of high-energy-density metal-based battery systems.展开更多
This Special Issue of Journal of Thermal Science(JTS)contains a selection of peer-reviewed papers from the ICSCPS 2018,held in Beijing,China during June 29^th to July 1^st,2018.The conference was chaired by professor ...This Special Issue of Journal of Thermal Science(JTS)contains a selection of peer-reviewed papers from the ICSCPS 2018,held in Beijing,China during June 29^th to July 1^st,2018.The conference was chaired by professor Jinliang Xu from the North China Electric Power University and sponsored by the Ministry of Science and Technology of China based on the National Key Research&Development Project“Fundamental studies and key technology development of high-efficiency carbon dioxide coal-fired power system”.展开更多
基金National Natural Science Foundation of China(52172097)Key Research and Development Program of Shaanxi Province(2022GY-301)+3 种基金Zhejiang Provincial Natural Science Foundation of China(LGF21E020001)Fundamental Research Foundation for the Central Universities of China(xjh012020031)China Scholarship Council foundation(201906285020)Qiong Cai would like to acknowledge the funding support from Faraday Institution LiSTAR Programme(EP/S003053/1,Grant FIRG014).
文摘Using inorganic fibrous membranes as protective layers has yielded success in suppressing dendrite growth.However,conventional fibrous membranes usually have large voids and low affinity for Li,promoting inhomogeneous charge distribution and allowing some dendrites to grow.Herein,we introduce a highly aligned TiO_(2)/SiO_(2)(A-TS)electrospun nanofiber membrane as a protective layer for the Li metal anode.The A-TS membrane is fabricated by a custom-made electrospinning system with an automatic fiber alignment collector that allows control of the fibers’orientation.At the scale of the individual fibers,their high binding energies with Li can attract more“dead”Li by reacting with the SiO_(2) component of the composite,avoiding uncontrollable deposition on the metal anode.At the membrane scale,these highly ordered structures achieve homogeneous contact and charge distribution on the Li metal surface,leaving no vulnerable areas to nucleate dendrite formation.Additionally,the excellent mechanical and thermal stability properties of the A-TS membrane prevent any potential puncturing by dendrites or thermal runaway in a battery.Hence,an A-TS@Li anode exhibits stable cycling performance when used in both Li-S and Li-NCM811 batteries,highlighting significant reference values for the future design and development of high-energy-density metal-based battery systems.
文摘This Special Issue of Journal of Thermal Science(JTS)contains a selection of peer-reviewed papers from the ICSCPS 2018,held in Beijing,China during June 29^th to July 1^st,2018.The conference was chaired by professor Jinliang Xu from the North China Electric Power University and sponsored by the Ministry of Science and Technology of China based on the National Key Research&Development Project“Fundamental studies and key technology development of high-efficiency carbon dioxide coal-fired power system”.
