PEMFC钛金属双极板表面改性研究进展
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摘要
钛和钛合金具有低密度、高强度,在酸性环境中表现出优异的耐蚀性能,在质子交换膜燃料电池(PEMFC)金属双极板中具有很高的研究和使用价值。介绍了质子交换膜燃料电池的工作原理,石墨材料、金属材料和复合材料等双极板的优缺点。以钛金属双极板为例,综述了金属双极板表面改性方法及其研究进展,指出了未来钛金属双极板表面改性的研究方向。
Titanium and titanium alloys have low density,high strength and excellent corrosion resistance in acidic environments,and therefore have high research and application value in metal bipolar plates of proton exchange membrane fuel cells(PEMFC).The working principle of proton exchange membrane fuel cells is introduced,as well as the advantages and disadvantages of bipolar plates such as graphite materials,metal materials and composite materials.Taking titanium bipolar plate as an example,the surface modification methods and their research progress of metal bipolar plate are reviewed,and the future research direction of surface modification of titanium bipolar plate is pointed out.
Titanium and titanium alloys have low density,high strength and excellent corrosion resistance in acidic environments,and therefore have high research and application value in metal bipolar plates of proton exchange membrane fuel cells(PEMFC).The working principle of proton exchange membrane fuel cells is introduced,as well as the advantages and disadvantages of bipolar plates such as graphite materials,metal materials and composite materials.Taking titanium bipolar plate as an example,the surface modification methods and their research progress of metal bipolar plate are reviewed,and the future research direction of surface modification of titanium bipolar plate is pointed out.
引文
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[23]XU J,HUANG H J,LI Z Y,et al.Corrosion behavior of a ZrCN coated Ti alloy with potential application as a bipolar plate for proton exchange membrane fuel cell[J].Journal of Alloys&Compounds,2016,663:718-730.
[24]BI F,HOU K,YI P,et al.Mechanisms of growth,properties and degragation of amorphous carbon films by closed field unbalanced magnetron sputtering on stainless steel bipolar plates for PEMFCs[J].Applied Surface Science,2017,422:921-931.
[25]陶韬,陈刚,高平平,等.钛双极板表面原位生成TiN涂层的性能研究[J].表面技术,2018,47(1):192-197.
[26]FENG K,KWOK D T K,LIU D,et al.Nitrogen plasma-implanted titanium as bipolar plates in polymer electrolyte membrane fuel cells[J].Journal of Power Sources,2010,195(19):6 798-6 804.
[27]LIN M T,WAN C H,WU W.Comparison of corrosion behaviors between SS304and Ti substrate coated with(Ti,Zr)N thin films as metal bipolar plate for unitized regenerative fuel cell[J].Thin Solid Films,2013,544:162-169.
[28]SHOW Y.Electrically conductive amorphous carbon coating on metal bipolar plates for PEFC[J].Surface and Coatings Technology,2007,202(4):1 252-1 255.
[29]冉贤强.水热法研究进展[J].硅谷,2010(4):5-8.
[30]徐晨彬.Pt/WC@TiO2核壳结构复合催化剂的制备及其电化学性能的研究[D].杭州:浙江工业大学,2013.
[31]王骏斌,谢志勇,高平平,等.GO-PTFE-C涂层改性Ti金属板的防腐性能研究[J].表面技术,2019,48(3):149-154.
[2]LIU S,GU L,ZHAO H,et al.Corrosion resistance of graphene-reinforced waterborne epoxy coatings[J].Journal of Materials Science&Technology,2016,32(5):425-431.
[3]黄倬.质子交换膜燃料电池的研究开发与应用[M].北京:冶金工业出版社,2000.
[4]LOPEZ Gaxiola D.Characterization of thermal and mechanical properties of polypropylene-based composites for fuel cell bipolar plates and development of educational tools in hydrogen and fuel cell technologies[J].Proquest Llc,2011,3(2):336-345.
[5]谭俊,石恭臣,毛爱清,等.PEMFC金属双极板表面改性技术[J].装甲兵工程学院学报,2007,21(3):69-73.
[6]LYO H,SU H,DONG C,et al.Influence of pH on the passivation behaviour of 904L stainless steel bipolar plates for proton exchange membrane fuel cells[J].Journal of Alloys&Compounds,2016,686:216-226.
[7]CAGLAR B,FISCHER P,KAURANEN P,et al.Development of carbon nanotube and graphite filled polyphenylene sulfide based bipolar plates for all-vanadium redox flow batteries[J].Journal of Power Sources,2014,256:88-95.
[8]HUANG J,BAIRD D G,MCGRATH J E.Development of fuel cell bipolar plates from graphite filled wet-lay thermoplastic composite materials[J].Journal of Power Sources,2005,150(1):110-119.
[9]PEKER M F.Investigations on the micro-scale surface interactions at the tool and workpiece interface in micromanufacturing of bipolar plates for proton exchange membrane fuel cells[D].Richmond:Virginia Commonwealth University,2012.
[10]FU Y,LIN G,HOU M,et al.Carbon-based films coated 316Lstainless steel as bipolar plate for proton exchange membrane fuel cells[J].International Journal of Hydrogen Energy,2009,34(1):405-409.
[11]TAWFIK H,HUNG Y,MAHAJAN D.Metal bipolar plates for PEM fuel cell—A review[J].Journal of Power Sources,2007,163(2):755-767.
[12]ASRI N F,HUSAINI T,SULONG A B,et al.Coating of stainless steel and titanium bipolar plates for anticorrosion in PEMFC:A review[J].International Journal of Hydrogen Energy,2017,42(14):9 135-9 148.
[13]田如锦.PEMFC金属双极板及其表面改性的研究进展[J].化学进展,2009,21(7):1 687-1 692.
[14]菲舍尔K,巴托洛迈奇克W.用于PEM燃料电池的双极板:CN1454397A[P].2003-11-05.
[15]MEHTA V,COOPER J S.Review and analysis of PEM fuel cell design and manufacturing[J].Journal of Power Sources,2003,114(1):32-53.
[16] GAMBOA S A,GONZALEZ-RODRIGUEZ J G,VALENZUELA E,et al.Evaluation of the corrosion resistance of Ni-Co-B coatings in simulated PEMFC environment[J].Electrochimica Acta,2006,51:4 045-4 051.
[17]WANG S H,PENG J,LUI W B,et al.Performance of the gold-plated titanium bipolar plates for the light weight PEM fuel cells[J].Journal of Power Sources,2006,162(1):486-491.
[18]KUMAR A,RICKETTS M,HIRANO S.Ex situ evaluation of nanometer range gold coating on stainless steel substrate for automotive polymer electrolyte membrane fuel cell bipolar plate[J].Journal of Power Sources,2010,195(5):1 401-1 407.
[19]JUNG H Y,HUANG S Y,POPOV B N.High-durability titanium bipolar plate modified by electrochemical deposition of platinum for unitized regenerative fuel cell(URFC)[J].Journal of Power Sources,2010,195(7):1 950-1 956.
[20]LEE S J,HUANG C H,CHEN Y P.Investigation of PVD coating on corrosion resistance of metallic bipolar plates in PEM fuel cell[J].Journal of Materials Processing Technology,2003,140(1-3):688-693.
[21]付广艳,戴世鑫.燃料电池用钛双极板表面Cr/TiN/Ti复合涂层的导电性及耐蚀性能[J].腐蚀科学与防护技术,2011,23(4):53-55.
[22]钱阳,徐江.钛合金双极板表面纳米晶Zr涂层在质子交换膜燃料电池环境中的性能[J].物理化学学报,2015,31(2):291-301.
[23]XU J,HUANG H J,LI Z Y,et al.Corrosion behavior of a ZrCN coated Ti alloy with potential application as a bipolar plate for proton exchange membrane fuel cell[J].Journal of Alloys&Compounds,2016,663:718-730.
[24]BI F,HOU K,YI P,et al.Mechanisms of growth,properties and degragation of amorphous carbon films by closed field unbalanced magnetron sputtering on stainless steel bipolar plates for PEMFCs[J].Applied Surface Science,2017,422:921-931.
[25]陶韬,陈刚,高平平,等.钛双极板表面原位生成TiN涂层的性能研究[J].表面技术,2018,47(1):192-197.
[26]FENG K,KWOK D T K,LIU D,et al.Nitrogen plasma-implanted titanium as bipolar plates in polymer electrolyte membrane fuel cells[J].Journal of Power Sources,2010,195(19):6 798-6 804.
[27]LIN M T,WAN C H,WU W.Comparison of corrosion behaviors between SS304and Ti substrate coated with(Ti,Zr)N thin films as metal bipolar plate for unitized regenerative fuel cell[J].Thin Solid Films,2013,544:162-169.
[28]SHOW Y.Electrically conductive amorphous carbon coating on metal bipolar plates for PEFC[J].Surface and Coatings Technology,2007,202(4):1 252-1 255.
[29]冉贤强.水热法研究进展[J].硅谷,2010(4):5-8.
[30]徐晨彬.Pt/WC@TiO2核壳结构复合催化剂的制备及其电化学性能的研究[D].杭州:浙江工业大学,2013.
[31]王骏斌,谢志勇,高平平,等.GO-PTFE-C涂层改性Ti金属板的防腐性能研究[J].表面技术,2019,48(3):149-154.
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