钠离子电池晶体电解质研究进展
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摘要
综述了近年来全固态钠离子电池电解质的研究和开发现状,包括钠离子电池电解质中的晶体类型、导电性能和改进方法以及面临的主要问题,最后指出它们未来的发展趋势。
The research and development status of all solid-state sodium ion battery electrolytes in recent years are reviewed,including crystal types,conductivity and improvement methods in sodium ion battery electrolytes,and the main problems are analyzed.Finally,their future development trends are summarized and pointed out.
The research and development status of all solid-state sodium ion battery electrolytes in recent years are reviewed,including crystal types,conductivity and improvement methods in sodium ion battery electrolytes,and the main problems are analyzed.Finally,their future development trends are summarized and pointed out.
引文
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[2]Ong S P,Chevrier V L,Hautier G,et al.Voltage,stability and diffusion barrier differences between sodium-ion and lithium-ion intercalation materials[J].Energy&Environmental Science,2011,4(9):3680-3688.
[3]Pan H,Hu Y S,Chen L. Room-temperature stationary sodium-ion batteries for large-scale electric energy storage[J].Energy&Environmental Science,2013,6(8):2338-2360.
[4]Yang Z,Zhang J,Kintner-Meyer M C W,et al.Electrochemical energy storage for green grid[J]. Chemical Reviews,2011,111(5):3577-3613.
[5]Wang L,Zhou Z,Yan X,et al.Engineering of lithium-metal anodes towards a safe and stable battery[J]. Energy Storage Materials,2018,14:22-48.
[6]Xie Y,Zou H,Xiang H,et al. Enhancement on the wettability of lithium battery separator toward nonaqueous electrolytes[J].Journal of Membrane Science,2016,503:25-30.
[7]Hueso K B,Armand M,Rojo T.High temperature sodium batteries:Status,challenges and future trends[J]. Energy&Environmental Science,2013,6(3):734-749.
[8]Hayashi A,Noi K,Sakuda A,et al.Superionic glass-ceramic electrolytes for room-temperature rechargeable sodium batteries[J].Nature Communications,2012,3:856-860.
[9]Li C,Jiang S,Lv J,et al.Ionic conductivities of Na-Ge-P glass ceramics as solid electrolyte[J]. Journal of Alloys and Compounds,2015,633:246-249.
[10]Tadanaga K,Yamashita Y,Hayashi A,et al. Preparation of proton conducting ionic glasses in the systems CsHSO4-MHSO4(M=Na,K,Rb)[J].Solid State Ionics,2010,181(3/4):187-189.
[11]Manthiram A.An outlook on lithium ion battery technology[J].ACS Central Science,2017,3(10):1063-1069.
[12]Lotsch B V,Maier J. Relevance of solid electrolytes for lithiumbased batteries:A realistic view[J]. Journal of Electroceramics,2017,38(2/3/4):128-141.
[13]Gon9alves M C,de Zea Bermudez V,Silva M M,et al. Structure,thermal properties,conductivity and electrochemical stability of diurethanesil hybrids doped with Li CF3SO3[J]. Ionics,2010,16(3):193-201.
[14]Tao C,Gao M H,Yin B H,et al.A promising TPU/PEO blend polymer electrolyte for all-solid-state lithium ion batteries[J].Electrochimica Acta,2017,257:31-39.
[15]Agrawal R C,Pandey G P.Solid polymer electrolytes:Materials designing and all-solid-state battery applications:An overview[J].Journal of Physics D:Applied Physics,2008,41(22):223001.
[16]Ponrouch A,Dedryvère R,Monti D,et al.Towards high energy density sodium ion batteries through electrolyte optimization[J].Energy Environmental Science,2013,6(8):2361-2369.
[17]Hayashi A,Noi K,Tanibata N,et al.High sodium ion conductivity of glass-ceramic electrolytes with cubic Na3PS4[J]. Journal of Power Sources,2014,258:420-423.
[18]Hashmi S A,Chandra S. Experimental investigations on a sodiumion-conducting polymer electrolyte based on poly(ethylene oxide)complexed with Na PF6[J].Materials Science and Engineering:B,1995,34(1):18-26.
[19]Thakur A K,Upadhyaya H M,Hashmi S A,et al. Polyethylene oxide-based sodium ion conducting composite polymer electrolytes dispersed with Na2SiO3[J]. Indian Journal of Pure&Applied Physics,1999,37(4):302-305.
[20]Zhu X,Zhao R,Deng W,et al.An all-solid-state and all-organic sodium-ion battery based on redox-active polymers and plastic crystal electrolyte[J].Electrochimica Acta,2015,178:55-59.
[21]Bo S H,Wang Y,Kim J C,et al.Computational and experimental investigations of Na-ion conduction in cubic Na3PSe4[J].Chemistry of Materials,2015,28(1):252-258.
[22]Zhang L,Yang K,Mi J,et al.Na3PSe4:A novel chalcogenide solid electrolyte with high ionic conductivity[J].Advanced Energy Materials,2015,5(24):1-5.
[23]Kim J,Yoon Y,Eom M,et al. Characterization of amorphous and crystalline Li2S-P2S5-P2Se5solid electrolytes for all-solid-state lithium ion batteries[J]. Solid State Ionics,2012,225:626-630.
[24]Maldonado-Manso P,Aranda M A G,Bruque S,et al.Nominal vs.actual stoichiometries in Al-doped NASICONs:A study of the Na1.4Al0.4M1.6(PO4)3(M=Ge,Sn,Ti,Hf,Zr)family[J].Solid State Ionics,2005,176(17/18):1613-1625.
[25]Jolley A G,Cohn G,Hitz G T,et al.Improving the ionic conductivity of NASICON through aliovalent cation substitution of Na3Zr2Si2PO12[J].Ionics,2015,21(11):3031-3038.
[26]Khakpour Z.Influence of M:Ce4+,Gd3+and Yb3+substituted Na3+x Zr2-xMxSi2PO12solid NASICON electrolytes on sintering,microstructure and conductivity[J]. Electrochemical Acta,2016,196:337-347.
[27]Evstigneeva M A,Nalbandyan V B,Petrenko A A,et al.A new family of fast sodium ion conductors:Na2M2Te O6(M=Ni,Co,Zn,Mg)[J].Chemistry of Materials,2011,23(5):1174-1181.
[28]Romain Berthelot,Whitney Schmidt,Sleight A W,et al.Studies on solid solutions based on layered honeycomb-ordered phases P2-Na2M2Te O6(M=Co,Ni,Zn)[J].Journal of Solid State Chemistry,2013,196(1):225-231.
[29]Nalbandyan V B,PetrenkoАА,Evstigneeva M A. Heterovalent substitutions in Na2M2Te O6family:Crystal structure,fast sodium ion conduction and phase transition of Na2Li Fe Te O6[J].Solid State Ionics,2013,233:7-11.
[2]Ong S P,Chevrier V L,Hautier G,et al.Voltage,stability and diffusion barrier differences between sodium-ion and lithium-ion intercalation materials[J].Energy&Environmental Science,2011,4(9):3680-3688.
[3]Pan H,Hu Y S,Chen L. Room-temperature stationary sodium-ion batteries for large-scale electric energy storage[J].Energy&Environmental Science,2013,6(8):2338-2360.
[4]Yang Z,Zhang J,Kintner-Meyer M C W,et al.Electrochemical energy storage for green grid[J]. Chemical Reviews,2011,111(5):3577-3613.
[5]Wang L,Zhou Z,Yan X,et al.Engineering of lithium-metal anodes towards a safe and stable battery[J]. Energy Storage Materials,2018,14:22-48.
[6]Xie Y,Zou H,Xiang H,et al. Enhancement on the wettability of lithium battery separator toward nonaqueous electrolytes[J].Journal of Membrane Science,2016,503:25-30.
[7]Hueso K B,Armand M,Rojo T.High temperature sodium batteries:Status,challenges and future trends[J]. Energy&Environmental Science,2013,6(3):734-749.
[8]Hayashi A,Noi K,Sakuda A,et al.Superionic glass-ceramic electrolytes for room-temperature rechargeable sodium batteries[J].Nature Communications,2012,3:856-860.
[9]Li C,Jiang S,Lv J,et al.Ionic conductivities of Na-Ge-P glass ceramics as solid electrolyte[J]. Journal of Alloys and Compounds,2015,633:246-249.
[10]Tadanaga K,Yamashita Y,Hayashi A,et al. Preparation of proton conducting ionic glasses in the systems CsHSO4-MHSO4(M=Na,K,Rb)[J].Solid State Ionics,2010,181(3/4):187-189.
[11]Manthiram A.An outlook on lithium ion battery technology[J].ACS Central Science,2017,3(10):1063-1069.
[12]Lotsch B V,Maier J. Relevance of solid electrolytes for lithiumbased batteries:A realistic view[J]. Journal of Electroceramics,2017,38(2/3/4):128-141.
[13]Gon9alves M C,de Zea Bermudez V,Silva M M,et al. Structure,thermal properties,conductivity and electrochemical stability of diurethanesil hybrids doped with Li CF3SO3[J]. Ionics,2010,16(3):193-201.
[14]Tao C,Gao M H,Yin B H,et al.A promising TPU/PEO blend polymer electrolyte for all-solid-state lithium ion batteries[J].Electrochimica Acta,2017,257:31-39.
[15]Agrawal R C,Pandey G P.Solid polymer electrolytes:Materials designing and all-solid-state battery applications:An overview[J].Journal of Physics D:Applied Physics,2008,41(22):223001.
[16]Ponrouch A,Dedryvère R,Monti D,et al.Towards high energy density sodium ion batteries through electrolyte optimization[J].Energy Environmental Science,2013,6(8):2361-2369.
[17]Hayashi A,Noi K,Tanibata N,et al.High sodium ion conductivity of glass-ceramic electrolytes with cubic Na3PS4[J]. Journal of Power Sources,2014,258:420-423.
[18]Hashmi S A,Chandra S. Experimental investigations on a sodiumion-conducting polymer electrolyte based on poly(ethylene oxide)complexed with Na PF6[J].Materials Science and Engineering:B,1995,34(1):18-26.
[19]Thakur A K,Upadhyaya H M,Hashmi S A,et al. Polyethylene oxide-based sodium ion conducting composite polymer electrolytes dispersed with Na2SiO3[J]. Indian Journal of Pure&Applied Physics,1999,37(4):302-305.
[20]Zhu X,Zhao R,Deng W,et al.An all-solid-state and all-organic sodium-ion battery based on redox-active polymers and plastic crystal electrolyte[J].Electrochimica Acta,2015,178:55-59.
[21]Bo S H,Wang Y,Kim J C,et al.Computational and experimental investigations of Na-ion conduction in cubic Na3PSe4[J].Chemistry of Materials,2015,28(1):252-258.
[22]Zhang L,Yang K,Mi J,et al.Na3PSe4:A novel chalcogenide solid electrolyte with high ionic conductivity[J].Advanced Energy Materials,2015,5(24):1-5.
[23]Kim J,Yoon Y,Eom M,et al. Characterization of amorphous and crystalline Li2S-P2S5-P2Se5solid electrolytes for all-solid-state lithium ion batteries[J]. Solid State Ionics,2012,225:626-630.
[24]Maldonado-Manso P,Aranda M A G,Bruque S,et al.Nominal vs.actual stoichiometries in Al-doped NASICONs:A study of the Na1.4Al0.4M1.6(PO4)3(M=Ge,Sn,Ti,Hf,Zr)family[J].Solid State Ionics,2005,176(17/18):1613-1625.
[25]Jolley A G,Cohn G,Hitz G T,et al.Improving the ionic conductivity of NASICON through aliovalent cation substitution of Na3Zr2Si2PO12[J].Ionics,2015,21(11):3031-3038.
[26]Khakpour Z.Influence of M:Ce4+,Gd3+and Yb3+substituted Na3+x Zr2-xMxSi2PO12solid NASICON electrolytes on sintering,microstructure and conductivity[J]. Electrochemical Acta,2016,196:337-347.
[27]Evstigneeva M A,Nalbandyan V B,Petrenko A A,et al.A new family of fast sodium ion conductors:Na2M2Te O6(M=Ni,Co,Zn,Mg)[J].Chemistry of Materials,2011,23(5):1174-1181.
[28]Romain Berthelot,Whitney Schmidt,Sleight A W,et al.Studies on solid solutions based on layered honeycomb-ordered phases P2-Na2M2Te O6(M=Co,Ni,Zn)[J].Journal of Solid State Chemistry,2013,196(1):225-231.
[29]Nalbandyan V B,PetrenkoАА,Evstigneeva M A. Heterovalent substitutions in Na2M2Te O6family:Crystal structure,fast sodium ion conduction and phase transition of Na2Li Fe Te O6[J].Solid State Ionics,2013,233:7-11.