000			04281nam a2200361 a 4500
001			00012110
003			WSP
007			cr cnu|||unuuu
008			210304s2021 si o 000 0 eng d
040			_a WSPC _b eng _c WSPC
020			_a9789811230677 _q(ebook)
020			_z9789811230660 _q(hbk.)
050	0	4	_aTK2941 _b.F86 2021
072		7	_aSCI _x013100 _2bisacsh
072		7	_aTEC _x009070 _2bisacsh
072		7	_aSCI _x050000 _2bisacsh
082	0	4	_a621.312424 _223
245	0	0	_aFunctional materials for next-generation rechargeable batteries _h[electronic resource] / _cedited by Jiangfeng Ni, Li Lu.
260			_aSingapore : _bWorld Scientific, _c2021.
300			_a1 online resource (xi, 216 p.)
538			_aMode of access: World Wide Web.
538			_aSystem requirements: Adobe Acrobat Reader.
520			_a"Over-consumption of fossil fuels has caused deficiency of limited resources and environmental pollution. Hence, deployment and utilization of renewable energy become an urgent need. The development of next-generation rechargeable batteries that store more energy and last longer has been significantly driven by the utilization of renewable energy. This book starts with principles and fundamentals of lithium rechargeable batteries, followed by their designs and assembly. The book then focuses on the recent progress in the development of advanced functional materials, as both cathode and anode, for next-generation rechargeable batteries such as lithium-sulfur, sodium-ion, and zinc-ion batteries. One of the special features of this book is that both inorganic electrode materials and organic materials are included to meet the requirement of high energy density and high safety of future rechargeable batteries. In addition to traditional non-aqueous rechargeable batteries, detailed information and discussion on aqueous batteries and solid-state batteries are also provided"--Publisher's website.
650		0	_aStorage batteries _xMaterials. _913217
650		0	_aElectrodes _xMaterials. _9178461
650		0	_aAnodes. _969509
655		0	_aElectronic books. _93294
700	1		_aNi, Jiangfeng. _9178462
700	1		_aLu, Li. _9178463
856	4	0	_uhttps://www.worldscientific.com/worldscibooks/10.1142/12110#t=toc _zAccess to full text is restricted to subscribers.
880	0		_6505-00 _aPrinciples and fundamentals of lithium rechargeable batteries / Jiangfeng Ni -- Carbon-metal oxide nanocomposites as lithium-sulfur battery cathodes / Sheng Zhu and Yan Li -- Recent advances of polar transition-metal sulfides host materials for advanced lithium-sulfur batteries / Liping Chen, Xifei Li, and Yunhua Xu -- Graphene oxide-polypyrrole composite as sulfur hosts for high-performance lithium-sulfur batteries / Qian Wang, Chengkai Yang, Hui Tang, Kai Wu, and Henghui Zhou -- Synthesis of carbon nanoflake/sulfur arrays as cathode materials of lithium-sulfur batteries / Fan Wang, Xinqi Liang, Minghua Chen, and Xinhui Xia -- Hard carbon anode materials for sodium-ion batteries / Ismaila El Moctar, Qiao Ni, Ying Bai, Feng Wu, and Chuan Wu -- Some MoS₂-based materials for sodium-ion battery / Qing Li, Xiaotian Guo, Mingbo Zheng, and Huan Pang -- Carbon nanoflakes as a promising anode for sodium-ion batteries / Xiaocui Zhu, S V Savilov, Jiangfeng Ni, and Liang Li -- Phoenix tree leaves-derived biomass carbons for sodium-ion batteries / Zengqiang Tian, Shijiao Sun, Xiangyu Zhao, Meng Yang, and Chaohe Xu -- Flexible α-Fe₂O₃ nanorod electrode materials for sodium-ion batteries with excellent cycle performance / Depeng Zhao, Di Xie, Hengqi Liu, Fang Hu, and Xiang Wu -- Green and facile synthesis of nanosized polythiophene as an organic anode for high-performance potassium-ion battery / Guifang Zeng, Yongling An, Huifang Fei, Tian Yuan, Sun Qing, Lijie Ci, Shenglin Xiong, and Jinkui Feng -- Nitrogen-doped MnO₂ nanorods as cathodes for high-energy Zn-MnO₂ batteries / Yalan Huang, Wanyi He, Peng Zhang, and Xihong Lu -- Metal-organic framework-derived structures for next-generation rechargeable batteries / Wenhui Shi, Xilian Xu, Lin Zhang, Wenxian Liu, and Xiehong Cao -- Polymer-in-salt solid electrolytes for lithium-ion batteries / Chengjun Yi, Wenyi Liu, Linpo Li, Haoyang Dong, and Jinping Liu.
942			_cEBK
999			_c97786 _d97786