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LiFePO_4的结构及电化学性能概要

Structure and Electrochemical Properties of LiFePO_4
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摘要 锂离子电池在海防、工业和科研等方面的的应用领域越来越广泛。LiFePO_4的结构非常稳定,循环性能好,温度范围广泛(能够在超过60℃温度工作),被认为是极具潜力的新一代电极材料。本文基于全海深电池的正极材料选型调研,简单介绍LiFePO_4的结构以及电化学性能。 Lithium batteries power have been used wider and wider in applications of subsea tn aejense, industrial and scientific. LiFePO4 has been considered one promising cathode material due to its stable atomic structure, which is resistant to degradation over charge discharge cycles and its capable of operating at over 60 ℃. Based on the survey results of sub-sea battery, this paper gives a brief introduction of LiFePO4 structure and electronic property.
出处 《船电技术》 2017年第12期5-9,共5页 Marine Electric & Electronic Engineering
基金 国家重点研发计划(2016YFC0300200)
关键词 锂离子电池 LiFePO4结构 电化学性能 lithium batteries LiFePO4 structure electronic property
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  • 1K.IM1AKI K. Overseas trends in the development of human occu-pied deep submersibles and a proposal for japan’s way to take[J].Science & Technology Trends, 2008, 26: 104-123.
  • 2DANIEL W F. Analysis of unmanned undersea vehicle (UUV) ar-chitectures and an assessment of UUV integration into undersea ap-plications [D]. California USA: Naval Postgraduate School, 2010:56-85.
  • 3ALAIN C. Lithium ion battery systems for large underwater vehi-cles [EB/OL], [2013-09-09]. http://www.docin.com/p-337170773.html.
  • 4戴国群.具有压力补偿装置的潜用智能锂电池组:中国,ZL201220154683.2[P]. 2012-11-14.
  • 5HASVOLD, FORSETH S’ JOHANNHSSEN T C, et al. Safety as-pects of large lithium batteries [R]. Norway: Forsvarets ForskningsInstitutt (FFI) Norwegian Defence Research Establishment,2007.
  • 6ZHANG X W. Thermal analysis of a cylindrical lithium-ion battery[J]. Electrochimica Acta, 2011,56: 1246-1255.
  • 7JIANG J, DAHN J R. ARC studies of the reaction between LiFe-P04 and LiPF6 or LiBOB EC/DEC electrolytes [J]. ElectrochemistryCommunications, 2004,6(7): 724-728.
  • 8KONG W H, LI H, HUANG X J, et al. Gas evolution behaviorsfor several cathode materials in lithium-ion batteries [J]. J PowerSources, 2005, 142(1/2): 285-291.
  • 9ZHANG S S' JOW T R. Study of poly (acrylonitrile-methylmethacrylate) as binder for graphite anode and LiMn204 cathodeof Li-ion batteries[J], J Power Sources, 2002,109: 422-426.
  • 10MACNEIL D D, DAHN J R. The reaction of charged cathodeswith nonaqueous solvents and electrolytes: II. LiMn204 charged to4.2 VfJ], Electrochem Soc, 2001, 148: A1211.

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