锂离子全电池研究综述
摘要
<正>第二次工业革命以后社会发展迅猛,传统化石能源燃烧的粗放式使用,不仅带来了严重的环境污染,也造成了极大的能源危机。太阳能、风能、氢能等新能源的使用能够有效缓解这一问题,这些新型能源得到了各国的大力支持。虽然这些能源储量丰富、可清洁再生,但是其大规模应用仍然存在着能量转化、运输、存储等问题,因此新能源储能技术得到了广
引文
[1]SUN Yangkook,MYUNG S T,PARK B C,et al.Highenergy cathode material for long-life and safe lithium batteries[J].Nature Material,2009,8(4):320.
[2]SCAR Vargas,áLVARO Caballero,MORALES J,et al.Contribution to the Understanding of Capacity Fading in Graphene Nanosheets Acting as an Anode in Full Li-Ion Batteries[J].Acs Applied Materials&Interfaces,2014,6(5):3290.
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[4]CHANG Haohsun,WU Hungchun,WU N.Enhanced high-temperature cycle performance of LiFePO4/carbon batteries by an ion-sieving metal coating on negative electrode[J].Electrochemistry Communications,2008,10(12):1823-1826.
[5]DUPRE N,MARTIN J F,DEGRYSE J,et al.Aging of the LiFePO4,positive electrode interface in electrolyte[J].Journal of Power Sources,2010,195(21):7415-7425.
[6]DUBARRY M,LIAW B Y.Identify capacity fading mechanism in a commercial LiFePO4 cell[J].Journal of Power Sources,2009,194(1):541-549.
[7]ZHANG Yancheng,WANG Chaoyang,TANG Xidong.Cycling degradation of an automotive LiFePO4,lithium-ion battery[J].Journal of Power Sources,2011,196(3):1513-1520.
[8]ZHENG Honghe,CHAI Lili,SONG Xiangyun,et al.Electrochemical cycling behavior of Li Fe PO4,cathode charged with different upper voltage limits[J].Electrochimica Acta,2012,62:256-262.
[9]YAN Hui,ZHANG Ding,GUO Guibao,et al.Hydrothermal synthesis of spherical Li4Ti5O12 material for a novel durable Li4Ti5O12/Li Mn2O4 full lithium ion battery[J].Ceramics International.2016(42):14855-14861.
[10]ZHENG Honghe,SUN Qingna,GAO Liu,et al.Correlation between dissolution behavior and electrochemical cycling performance for Li Ni1/3Co1/3Mn1/3O2-based cells[J].Journal of Power Sources,2012,207(6):134-140.
[11]TALEBIE M,ROUSSELOT S,GAUTHIER M,et al.Control of the LiFePO4 electrochemical properties using low-cost iron precursor in a melt process[J].Journal of Solid State Electrochemistry,2016:1-10.
[12]BALOGUN M S,QIU W,LUO Y,et al.A review of the development of full cell lithium-ion batteries:The impact of nanostructured anode materials[J].Nano Research,2016(10):1-29.
[13]KLETT M,ZAVALIS T G,KJELL M H,et al.Altered electrode degradation with temperature in Li Fe PO4/mesocarbon microbead graphite cells diagnosed with impedance spectroscopy[J].Electrochimica Acta,2014,141(28):173-181.
[14]SHIM J,STRIEBEL K A.Cycling performance of low-cost lithium ion batteries with natural graphite and LiFePO4[J].Journal of Power Sources,2003,119-121(2):955-958.
[15]STRIEBEL K,SHIM J,SIERRA A,et al.The development of low cost Li Fe PO4-based high power lithium-ion batteries[J].Journal of Power Sources,2005,146(1-2):33-38.
[16]INABA M.Secondary Batteries-Lithium Rechargeable Systems-Lithium-ion/Negative Electrodes:Graphite[J].Encyclopedia of Electrochemical Power Sources,2009:198-208.
[17]LIU G Y,WANG H Y,LIU G Q,et al.Facile synthesis of nanocrystalline Li4Ti5O12,by microemulsion and its application as anode material for Li-ion batteries[J].Journal of Power Sources,2012,220(220):84-88.
[18]JAISWAL A,HORNE C R,CHANG O,et al.Nanoscale Li Fe PO4 and Li4Ti5O12 for high rate Li-Ion batteries[J].Journal of the Electrochemical Society,2009,156(12):A1041-A1046.
[19]WANG Ping,ZHANG Geng,CHENG Jian,et al.Facile Synthesis of Carbon-Coated Spinel Li4Ti5O12/Rutile-Ti O2 Composites as an Improved Anode Material in Full Lithium-Ion Batteries with LiFePO4@N-Doped Carbon Cathode[J].Acs Applied Materials&Interfaces,2017,9:6138-6143.
[20]CHOI D,WANG Donghai,VISWANATHAN V V,et al.Li-ion batteries from Li Fe PO4 cathode and anatase/graphene composite anode for stationary energy storage[J].Electrochemistry Communications,2009,12(3):378-381.
[21]XU Guiliang,XU Yuefeng,FANG Junchuan,et al.Facile Synthesis of Hierarchical Micro/Nanostructured Mn O Material and Its Excellent Lithium Storage Property and High Performance as Anode in a MnO/LiNi0.5Mn1.5O4-δLithium Ion Battery[J].Acs Applied Materials&Interfaces,2013,5(13):6316-6323.
[22]REDDY M V,PRITHVI G,LOH K P,et al.Li storage and impedance spectroscopy studies on Co3O4,Co O,and CoN for Liion batteries.[J].Acs Applied Materials&Interfaces,2014,6(1):680-690.
[23]HASSOUN J,PANERO S,REALE P,et al.A New,Safe,High-Rate and High-Energy Polymer Lithium-Ion Battery[M].Advanced Materials.2009:4807-4810.
[24]JI Liwen,ZHANG Xiangwu.Evaluation of Si/carbon composite nanofiber-based insertion anodes for new-generation rechargeable lithium-ion batteries[J].Energy&Environmental Science,2010,3(1):124-129.
[25]KIM J K,CHO G B,RYU H S,et al.Electrochemical properties of a full cell of lithium iron phosphate cathode using thin amorphous silicon anode[J].Solid State Ionics,2014,268:256-260.
[26]BRUTTI S,HASSOUN J,SCROSATI B,et al.A high power Sn-C/C-Li Fe PO4,lithium ion battery[J].Journal of Power Sources,2012,217(11):72-76.
[27]SELF E C,MCREN E C,WYCISK R,et al.LiCoO2-Based Fiber Cathodes for Electrospun Full Cell Li-ion Batteries[J].Electrochimica Acta,2016,214:139-146.
[28]LI Xiaona,LIANG Jianwen,HOU Zhiguo,et al.The design of a high-energy Li-ion battery using germanium-based anode and Li Co O2,cathode[J].Journal of Power Sources,2015,293:868-875.
[29]HE Yanbing,LI Baohua,YANG Quanhong,et al.Effects of current densities on the formation of Li Co O2/graphite lithium ion battery[J].Journal of Solid State Electrochemistry,2011,15(9):1977-1985.
[30]JI Liwen,ZHENG Honghe,IISMACH A,et al.Graphene/Si multilayer structure anodes for advanced half and full lithium-ion cells[J].Nano Energy,2012,1(1):164-171.
[31]TAKAMI N,INAGAKI H,TATEBAYASHI Y,et al.High-power and long-life lithium-ion batteries using lithium titanium oxide anode for automotive and stationary power applications[J].Journal of Power Sources,2013,244(4):469-475.
[32]HU D H,ZHAO S X,DENG Y F,et al.Synthesis and electrochemical performance of rod-like spinel LiMn2O4 coated by Li-Al-Si-O solid electrolyte[J].Journal of Materials Chemistry A,2013,1(46):14729-14735.
[33]WANG Ruying,WANG Juan,TIAN Qiu,et al.Effects of different carbon sources on the electrochemical properties of Li4Ti5O12/C composites[J].Electrochimica Acta,2012,70(6):84-90.
[34]WANG Z,WANG Z,PENG W,et al.An improved solid-state reaction to synthesize Zr-doped Li4Ti5O12 anode material and its application in Li Mn2O4/Li4Ti5O12 full-cell[J].Ceramics International,2014,40(7):10053-10059.
[35]KRAYTSBERG A,EI Y.Higher,Stronger,Better A Review of 5 Volt Cathode Materials for Advanced Lithium-Ion Batteries[J].Advanced Energy Materials,2012,2(8):922-939.
[36]ZHANG Weixin,GUO Ma,GU Heyun,et al.A new lithium-ion battery:Cu O nanorod array anode versus spinel Li Ni 0.5Mn1.5O4,cathode[J].Journal of Power Sources,2015,273(273):561-565.
[37]FANG Junchuan,XU Y,XU Guiliang,et al.Fabrication of densely packed LiNi0.5Mn1.5O4,cathode material with excellent long-term cycleability for high-voltage lithium ion batteries[J].Journal of Power Sources,2016,304:15-23.
[38]KIM J,PIECZONKA N P W,SUN Y,et al.Improved lithium-ion battery performance of Li Ni0.5Mn1.5-xTix O4 high voltage spinel in full-cells paired with graphite and Li4Ti5O12 negative electrodes[J].Journal of Power Sources,2014,62(9):62-71.
[2]SCAR Vargas,áLVARO Caballero,MORALES J,et al.Contribution to the Understanding of Capacity Fading in Graphene Nanosheets Acting as an Anode in Full Li-Ion Batteries[J].Acs Applied Materials&Interfaces,2014,6(5):3290.
[3]ZIV B,BORGEL V,AURBACH D,et al.Investigation of the Reasons for Capacity Fading in Li-Ion Battery Cells[J].Journal of the Electrochemical Society,2014,161(10):A1672-A1680.
[4]CHANG Haohsun,WU Hungchun,WU N.Enhanced high-temperature cycle performance of LiFePO4/carbon batteries by an ion-sieving metal coating on negative electrode[J].Electrochemistry Communications,2008,10(12):1823-1826.
[5]DUPRE N,MARTIN J F,DEGRYSE J,et al.Aging of the LiFePO4,positive electrode interface in electrolyte[J].Journal of Power Sources,2010,195(21):7415-7425.
[6]DUBARRY M,LIAW B Y.Identify capacity fading mechanism in a commercial LiFePO4 cell[J].Journal of Power Sources,2009,194(1):541-549.
[7]ZHANG Yancheng,WANG Chaoyang,TANG Xidong.Cycling degradation of an automotive LiFePO4,lithium-ion battery[J].Journal of Power Sources,2011,196(3):1513-1520.
[8]ZHENG Honghe,CHAI Lili,SONG Xiangyun,et al.Electrochemical cycling behavior of Li Fe PO4,cathode charged with different upper voltage limits[J].Electrochimica Acta,2012,62:256-262.
[9]YAN Hui,ZHANG Ding,GUO Guibao,et al.Hydrothermal synthesis of spherical Li4Ti5O12 material for a novel durable Li4Ti5O12/Li Mn2O4 full lithium ion battery[J].Ceramics International.2016(42):14855-14861.
[10]ZHENG Honghe,SUN Qingna,GAO Liu,et al.Correlation between dissolution behavior and electrochemical cycling performance for Li Ni1/3Co1/3Mn1/3O2-based cells[J].Journal of Power Sources,2012,207(6):134-140.
[11]TALEBIE M,ROUSSELOT S,GAUTHIER M,et al.Control of the LiFePO4 electrochemical properties using low-cost iron precursor in a melt process[J].Journal of Solid State Electrochemistry,2016:1-10.
[12]BALOGUN M S,QIU W,LUO Y,et al.A review of the development of full cell lithium-ion batteries:The impact of nanostructured anode materials[J].Nano Research,2016(10):1-29.
[13]KLETT M,ZAVALIS T G,KJELL M H,et al.Altered electrode degradation with temperature in Li Fe PO4/mesocarbon microbead graphite cells diagnosed with impedance spectroscopy[J].Electrochimica Acta,2014,141(28):173-181.
[14]SHIM J,STRIEBEL K A.Cycling performance of low-cost lithium ion batteries with natural graphite and LiFePO4[J].Journal of Power Sources,2003,119-121(2):955-958.
[15]STRIEBEL K,SHIM J,SIERRA A,et al.The development of low cost Li Fe PO4-based high power lithium-ion batteries[J].Journal of Power Sources,2005,146(1-2):33-38.
[16]INABA M.Secondary Batteries-Lithium Rechargeable Systems-Lithium-ion/Negative Electrodes:Graphite[J].Encyclopedia of Electrochemical Power Sources,2009:198-208.
[17]LIU G Y,WANG H Y,LIU G Q,et al.Facile synthesis of nanocrystalline Li4Ti5O12,by microemulsion and its application as anode material for Li-ion batteries[J].Journal of Power Sources,2012,220(220):84-88.
[18]JAISWAL A,HORNE C R,CHANG O,et al.Nanoscale Li Fe PO4 and Li4Ti5O12 for high rate Li-Ion batteries[J].Journal of the Electrochemical Society,2009,156(12):A1041-A1046.
[19]WANG Ping,ZHANG Geng,CHENG Jian,et al.Facile Synthesis of Carbon-Coated Spinel Li4Ti5O12/Rutile-Ti O2 Composites as an Improved Anode Material in Full Lithium-Ion Batteries with LiFePO4@N-Doped Carbon Cathode[J].Acs Applied Materials&Interfaces,2017,9:6138-6143.
[20]CHOI D,WANG Donghai,VISWANATHAN V V,et al.Li-ion batteries from Li Fe PO4 cathode and anatase/graphene composite anode for stationary energy storage[J].Electrochemistry Communications,2009,12(3):378-381.
[21]XU Guiliang,XU Yuefeng,FANG Junchuan,et al.Facile Synthesis of Hierarchical Micro/Nanostructured Mn O Material and Its Excellent Lithium Storage Property and High Performance as Anode in a MnO/LiNi0.5Mn1.5O4-δLithium Ion Battery[J].Acs Applied Materials&Interfaces,2013,5(13):6316-6323.
[22]REDDY M V,PRITHVI G,LOH K P,et al.Li storage and impedance spectroscopy studies on Co3O4,Co O,and CoN for Liion batteries.[J].Acs Applied Materials&Interfaces,2014,6(1):680-690.
[23]HASSOUN J,PANERO S,REALE P,et al.A New,Safe,High-Rate and High-Energy Polymer Lithium-Ion Battery[M].Advanced Materials.2009:4807-4810.
[24]JI Liwen,ZHANG Xiangwu.Evaluation of Si/carbon composite nanofiber-based insertion anodes for new-generation rechargeable lithium-ion batteries[J].Energy&Environmental Science,2010,3(1):124-129.
[25]KIM J K,CHO G B,RYU H S,et al.Electrochemical properties of a full cell of lithium iron phosphate cathode using thin amorphous silicon anode[J].Solid State Ionics,2014,268:256-260.
[26]BRUTTI S,HASSOUN J,SCROSATI B,et al.A high power Sn-C/C-Li Fe PO4,lithium ion battery[J].Journal of Power Sources,2012,217(11):72-76.
[27]SELF E C,MCREN E C,WYCISK R,et al.LiCoO2-Based Fiber Cathodes for Electrospun Full Cell Li-ion Batteries[J].Electrochimica Acta,2016,214:139-146.
[28]LI Xiaona,LIANG Jianwen,HOU Zhiguo,et al.The design of a high-energy Li-ion battery using germanium-based anode and Li Co O2,cathode[J].Journal of Power Sources,2015,293:868-875.
[29]HE Yanbing,LI Baohua,YANG Quanhong,et al.Effects of current densities on the formation of Li Co O2/graphite lithium ion battery[J].Journal of Solid State Electrochemistry,2011,15(9):1977-1985.
[30]JI Liwen,ZHENG Honghe,IISMACH A,et al.Graphene/Si multilayer structure anodes for advanced half and full lithium-ion cells[J].Nano Energy,2012,1(1):164-171.
[31]TAKAMI N,INAGAKI H,TATEBAYASHI Y,et al.High-power and long-life lithium-ion batteries using lithium titanium oxide anode for automotive and stationary power applications[J].Journal of Power Sources,2013,244(4):469-475.
[32]HU D H,ZHAO S X,DENG Y F,et al.Synthesis and electrochemical performance of rod-like spinel LiMn2O4 coated by Li-Al-Si-O solid electrolyte[J].Journal of Materials Chemistry A,2013,1(46):14729-14735.
[33]WANG Ruying,WANG Juan,TIAN Qiu,et al.Effects of different carbon sources on the electrochemical properties of Li4Ti5O12/C composites[J].Electrochimica Acta,2012,70(6):84-90.
[34]WANG Z,WANG Z,PENG W,et al.An improved solid-state reaction to synthesize Zr-doped Li4Ti5O12 anode material and its application in Li Mn2O4/Li4Ti5O12 full-cell[J].Ceramics International,2014,40(7):10053-10059.
[35]KRAYTSBERG A,EI Y.Higher,Stronger,Better A Review of 5 Volt Cathode Materials for Advanced Lithium-Ion Batteries[J].Advanced Energy Materials,2012,2(8):922-939.
[36]ZHANG Weixin,GUO Ma,GU Heyun,et al.A new lithium-ion battery:Cu O nanorod array anode versus spinel Li Ni 0.5Mn1.5O4,cathode[J].Journal of Power Sources,2015,273(273):561-565.
[37]FANG Junchuan,XU Y,XU Guiliang,et al.Fabrication of densely packed LiNi0.5Mn1.5O4,cathode material with excellent long-term cycleability for high-voltage lithium ion batteries[J].Journal of Power Sources,2016,304:15-23.
[38]KIM J,PIECZONKA N P W,SUN Y,et al.Improved lithium-ion battery performance of Li Ni0.5Mn1.5-xTix O4 high voltage spinel in full-cells paired with graphite and Li4Ti5O12 negative electrodes[J].Journal of Power Sources,2014,62(9):62-71.