[1] 胡信国,王殿龙,戴长松,等. 动力电池材料[M]. 北京:化学工业出版社,2013:2-3. HU Xingguo,WANG Dianlong,DAI Changshong,et al. Power battery material[M]. Beijing:Chemical Industry Press,2013:2-3.
[2] LU L,HAN X,LI J,et al. A review on the key issues for lithium-ion battery management in electric vehicles[J]. Journal of Power Sources,2013,226(3):272-288.
[3] VEZZINI A. Lithium-ion batteries:15-lithium-ion battery management[M]. New York:Elsevier,2014:345-360.
[4] YOSHINO A. Lithium-ion batteries:1-development of the lithium-ion battery and recent technological trends[M]. New York:Elsevier,2014:1-20.
[5] ABE T. Secondary batteries-lithium rechargeable systems-lithium-ion|negative electrodes:carbon[M]//Encyclopedia of Electrochemical Power Sources,2009:192-197.
[6] LAVE L B,HENDRICKSON C T,MCMICHAEL F C. Environmental implications of electric cars[J]. Science,1995,268(5213):993-995.
[7] PERUJO A,CIUFFO B. The introduction of electric vehicles in the private fleet:potential impact on the electric supply system and on the environment. A case study for the Province of Milan,Italy[J]. Energy Policy,2010,38(8):4549-4561.
[8] 朱广焱,刘雪省,潘磊,等. 三元材料在锂离子动力电池上的应用[J]. 电源技术,2009,33(7):547-551. ZHU Guangyan,LIU Xuesheng,PAN Lei,et al. Investigations of LiNi1/3Mn1/3Co1/3O2 cathodes materiels for power Lithium-ion batteries[J]. Chinese Journal of Power Sources,2009,33(7):547-551.
[9] 黄震雷,王峰,向德波,等. 锂离子动力电池三元正极材料的机遇与挑战[J]. 新材料产业,2012(9):2-9. HUANG Zhenglei,WANG Feng,XIANG Debo,et al. Opportunities and challenges of ternary cathode material for Lithium ion power battery[J]. Advanced Materials Industry,2012(9):2-9.
[10] 陈鹏,肖冠,廖世军. 具有不同组成的镍钴锰三元材料的最新研究进展[J]. 化工进展,2016,35(1):166-174. CHEN Peng,XIAO Guan,LIAO Shijun. Recent progress in the cobalt-nickel-manganese ternary cathode materials with various proportions of nickel to cobalt and manganese[J]. Chemical Industry and Engineering Progress,2016,35(1):166-174.
[11] 阮泽文,顾海涛,史海浩,等. 动力锂离子电池三元正极材料LiNi1-x-yCoxAlyO2研究进展[J]. 功能材料,2015(1):1007-1015. RUAN Zewen,GU Haitao,SHI Haihao,et al. Recent progress of LiNi1-x-yCoxAlyO2 ternary cathode materials[J]. Journal of Functional Materials,2015(1):1007-1015.
[12] 郭欣. 锂离子电池三元正极材料LiNi1/3Co1/3O2的制备与改性研究[D]. 长春:东北师范大学,2015. GUO Xing. Preparation and modification of LiNi1/3Co1/3O2 cathode material for Li-ion batteries[D]. Changchun:Northeast Normal University,2015.
[13] WEAVING J S,COOWAR F,TEAGLE D A,et al. Development of high energy density Li-ion batteries based on LiNi1-x-yCoxAlyO2[J]. Fuel & Energy Abstracts,2001,97/98(4):733-735.
[14] MCCALLA E,DAHN J R. The spinel and cubic rocksalt solid-solutions in the Li-Mn-Ni oxide pseudo-ternary system[J]. Solid State Ionics,2013,242:1-9.
[15] NAM K T,KIM D W,YOO P J,et al. Virus-enabled synthesis and assembly of nanowires for lithium ion battery electrodes[J]. Science,2006,312(5775):885-888.
[16] TARASCON J M,ARMAND M. Issues and challenges facing rechargeable lithium batteries[J]. Nature,2001,414(6861):359.
[17] PENG H S. Fiber-shaped energy harvesting and storage devices[M]. New York:Springer,2015:147-178.
[18] BERBER S,KWON Y K,TOMANEK D. Electronic and structural properties of carbon nano-horns[C]//American Institute of Physics Conference Series. AIP Publishing,2012:1778-1780.
[19] AJAYAN P M. Nanotubes from carbon[J]. Chemical Reviews,1999,99(7):1787.
[20] ZHAO Jinjin,REN Shuxia,DU Yanliang,et al. Study on the influence of carbon nanotubes on the mechanical properties of portland cement[J]. Bulletin of the Chinese Ceramic:Society,2013,32(7):1361-1370.
[21] TERRONES M. Science and technology of the twenty-first century:synthesis,properties,and applications of carbon nanotubes[J]. Annual Review of Materials Research,2003,33(1):419-501.
[22] YAKOBSON B I,AVOURIS P. Mechanical properties of carbon nanotubes[J]. Topics in Applied Physics,2001,80:287-327.
[23] THOSTENSON E T,REN Z,CHOU T W. Advances in the science and technology of carbon nanotubes and their composites:a review[J]. Composites Science & Technology,2001,61(13):1899-1912. |