参考文献
[1]THALLER L H.Electrically rechargeable redox flow cells[M].Washington:National Aeronautics and Space Administration,1974.
[2]THALLER L H.Electrically rechargeable redox flow cell:US3996064[P].1976-12-7.
[3]THALLER L H.Electrochemical cell for rebalancing redox flow system:US4159366[P].1979-6-26.
[4]REMICK R J,ANG P G.Electrically rechargeable anionically active reduction-oxidation electrical storage-supply system:US4485154[P].1984-11-27.
[5]SKYLLAS-KAZACOS M.An historical overview of the vanadium redox flow battery development at the university of New South Wales,Australia[C].41th annual conference of metallurgists of CIM international symposium on vanadium Aug 11-14,2002 Montreal,Quebec,Canada,2002.
[6]张华民,张宇,刘宗浩,等.液流储能电池技术研究进展[J].化学进展,2009,21(11):2333-2340.
[7]GONG K,FANG Q R,GU S,et al.Nonaqueous redox-flow batteries:organic solvents,supporting electrolytes,and redox pairs[J].Energy&environmental science,2015(8):3515-3530.
[8]ZHANG H M,LU W J,LI X F.Progress and perspectives of flow battery technologies[J].Electrochemical energy reviews,2019(2):492-506.
[9]张华民.液流电池技术[M].北京:化学工业出版社,2015.
[10]LI L Y,KIM SOOWHAN,WANG W,et al.A stable vanadium redox-flow battery with high energy density for large-scale energy storage[J].Avanced energy materials,2011(1):394-400.
[11]LI L Y,KIM SOOWHAN,YANG Z G.Redox flow batteries based on supporting solutions comprising a mixture of acids:US20120107660A1[P].2012-5-3.
[12]ZHANG H M,LU W J,LI X F.Progress and perspectives of flow battery technologies[J].Electrochemical energy reviews,2019(2):492-506.
[13]SKYLLAS-KAZACOS M.New Vanadium Bromide Redox Fuel Cell[EB/OL].[2020-08-06].http://www.researchgate.net/publication/287026471_New_vanadium_bromide_redox_fuel_cell.
[14]SKYLLAS-KAZACOS M.Novel vanadium chloride/polyhalide redox flow battery[J].Journal of power sources,2003,124(1):299-302.
[15]WU M C,ZHAO T S,JIANG H R,et al.High-performance zinc bromine flow battery via improved design of electrolyte and electrode[J].Journal of power sources,2017(355):62-68.
[16]ZHANG L,ZHANG H,LAI Q,et al.Development of carbon coated membrane for zinc/bromine flow battery with high power density[J].Journal of power sources,2013,227(4):41-47.
[17]WANG C,LI X,XI X,et al.Research on the relationship between activity and structure of carbon materials for Br2/Br-in zinc bromine flow batteries[J].RSC advances,2016(6):40169-40174.
[18]WANG C,LAI Q,XU P,et al.Cage-like porous carbon with superhigh activity and Br2-complex-entrapping capability for bromine-based flow batteries[J].Advanced materials,2017(29):1605815.
[19]WANG C,LI X,Xi X,et al.Bimodal highly ordered mesostructure carbon with high activity for Br2/Br-redox couple in bromine based batteries[J].Nano energy,2016(21):217.
[20]WANG C H,LU W J,LAI Q Z,et al.A tin nanorod array 3D hierarchical composite electrode for ultrahigh-power-density bromine-based flow batteries[J].Advanced materials,2019,31(46):1904690.
[21]NAGAI Y,KOMIYAMA R,MIYASHITA H,et al.Miniaturisation of Zn/Br redox flow battery cell and investigation of electrode materials influence on its characteristics[J].IET micro&nano letters,2016(11):577.
[22]HU W D,XU S H,XU C F.Graphite electrodes modified by carbon nano-tube applied in zinc-bromide battery[J].Journal of functional materials and devices,2012(18):421.
[23]JANG W I,JIN W L,BAEK Y M,et al.Development of a PP/carbon/CNT composite electrode for the zinc/bromine redox flow battery[J].Macromolecular research,2016(24):276.
[24]YANG B,HAO C,WEN F,et al.Flexible black-phosphorus nanoflake/carbon nanotube composite paper for high-performance all-solid-state supercapacitors[J].ACS applied materials&interfaces,2017(9):44478.
[25]ZHU K L,LUO Y F,ZHAO F,et al.Free-standing,binder-free titania/super-aligned carbon nanotube anodes for flexible and fast-charging li-ion batteries[J].ACS sustainable chemistry&engineering,2018(6):3426.
[26]MU X,DU J,ZHANG Y,et al.Construction of hierarchical CNT/rGO-supported MnMoO4nanosheets on Ni Foam for high-performance aqueous hybrid supercapacitors[J].ACS applied materials&interfaces,2017(9):35775.
[27]RUAN B,GUO H,HOU Y,et al.Carbon-encapsulated Sn@N-doped carbon nanotubes as anode materials for application in SIBs[J].ACS applied materials&interfaces,2017(9):37682.
[28]MUNAIAH Y,SURESH S,DHEENADAYALAN S,et al.Comparative electrocatalytic performance of single-walled and multiwalled carbon nanotubes for zinc bromine redox flow batteries[J].Journal of physical chemistry C,2014(118):14711.
[29]MUNAIAH Y,DHEENADAYALAN S,RAGUPATHY P,et al.High performance carbon nanotube based electrodes for zinc bromine redox flow batteries ECS[J].Journal of solid state science and technology,2013(2):3182.
[30]LIU Y H,YU T C,CHEN Y W,et al.Incorporating manganese dioxide in carbon nanotube chitosan as a pseudocapacitive composite electrode for high-performance desalination[J].ACS sustainable chemistry&engineering,2018(6):3196.
[31]WANG S G,ZHAO X S,COCHELL T,et al.Nitrogen-doped carbon nanotube/graphite felts as advanced electrode materials for vanadium redox flow batteries[J].The journal of physical chemistry letters,2012,3(16):2164-2167.
[32]LEE J,PARK M S,KIM K J.Highly enhanced electrochemical activity of Ni foam electrodes decorated with nitrogen-doped carbon nanotubes for non-aqueous redox flow batteries[J].Journal of power sources,2017(341):212.
[33]ZHANG L,ZHANG H,LAI Q,et al.Development of carbon coated membrane for zinc/bromine flow battery with high power density[J].Journal of power sources,2013(227):41-47.
[34]KIM R,KIM H G,DOO G,et al.Ultrathin nafion-filled porous membrane for zinc/bromine redox flow batteries[J].Scientific reports,2017,7(1):10503.
[35]HU J,YUE M,ZHANG H M,et al.A boron nitride nanosheets composite membrane for a long-life zinc-based flow battery[J].Angewandte chemie international edition,2020,59(17):6715-6719.
[36]LANCRY E,MAGNES B Z,BEN-DAVID I,et al.New bromine complexing agents for bromine based batteries[J].ECS transactions,2013.
[37]WU M C,ZHAO T S,WEI L,et al.Improved electrolyte for zinc-bromine flow batteries[J].Journal of power sources,2018(384):232-239.
[38]RAJARATHNAM GOBINATH P,SCHNEIDER MARTIN,SUN X H,et al.The influence of supporting electrolytes on zinc half-cell performance in zinc/bromine flow batteries[J].Journal of the electrochemical society,2016,163(1):A5112-A5117.
[39]CHENG Y H,ZHANG H M,LAI Q Z,et al.A high power density single flow zinc-nickel battery with three-dimensional porous negative electrode[J].Journal of power sources,2013(241):196-202.
[40]CHENG Y H,LAI Q Z,LI X F,et al.Zinc-nickel single flow batteries with improved cycling stability by eliminating zinc accumulation on the negative electrode[J].Electrochimica acta,2014(145).
[41]CHENG J,WEN Y H,CAO G P,et al.Influence of zinc ions in electrolytes on the stability of nickel oxide electrodes for single flow zinc-nickel batteries[J].Journal of power sources,2010,196(3).
[42]CHENG Y H,ZHANG H M,LAI Q Z,et al.Performance gains in single flow zinc-nickel batteries through novel cell configuration[J].Electrochimica acta,2015:618-621.
[43]CHENG Y H,ZHANG H M,LAI Q Z,et al.Effect of temperature on the performances and in situ polarization analysis of zinc-nickel single flow batteries[J].Journal of power sources,2014(249).
[44]肖涵谛,黄忍,张欢,等.Fe(Ⅱ)-Cr(Ⅲ)电解液在石墨电极上的氧化还原动力学研究[J].电源技术,2019,43(7).
[45]SINGH P.Application of non-aqueous solvents to batteries[J].Journal of power sources,1984(11):135-142.
[46]WEI X L,XU W,VIJAYAKUMAR M,et al.TEMPO-based catholyte for high-energy density nonaqueous redox flow batteries[J].Advanced materials,2014(26):7649-7653.
[47]DING Y,ZHAO Y,YU G H.A Membrane-free ferrocene-based high-rate semiliquid battery[J].Nano letters,2015(15):4108-4113.
[48]WEI X,COSIMBESCU L,XU W,et al.Towards high-performance nonaqueous redox flow electrolyte via ionic modification of active species[J].Advanced energy materials,2015(5):1400678.
[49]DING Y,ZHAO Y,LI Y T,et al.A high-performance all-metallocene-based,non-aqueous redox flow battery[J].Energy&environmental science,2017(10):491-497.
[50]ZHANG C K,ZHANG L Y,DING Y,et al.Eutectic electrolytes for high-energy-density redox flow batteries[J].ACS energy letters,2018(3):2875-2883.
[51]ZHANG L Y,ZHANG C K,DING Y,et al.A low-cost and highenergy hybrid iron-aluminum liquid battery achieved by deep eutectic solvents[J].Joule,2017(1):623-633.
[52]HUSKINSON B,MARSHAK M P,SUH C,et al.A metal-free organicinorganic aqueous flow battery[J].Nature,2014(505):195-198.
[53]LIN K,CHEN Q,GERHARDT M R,et al.Alkaline quinone flow battery[J].Science,2015(349):1529-1532.