掺杂金属氧化物贮氢电极的电化学性能(英文)

Electrochemical Properties of Hydrogen Storage Electrode Modified with Metal Oxides

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摘要研究了掺杂金属氧化物Fe3O4和Cr2O3贮氢电极MmNi3.5Mn0.4Co0.7Al0.4（Mm：混合稀土）的电化学性能。结果表明,Fe3O4和Cr2O3的掺杂均使贮氢电极的放电容量增大和充电效率提高,且活化性能得到改善,活化次数减少到3-5次。Cr2O3的掺杂可使贮氢电极的放电过电位减少3.0mV、快速放电能力（放电电流密度为500mA·g^-1）提高8.1%,同时改善了电极的循环稳定性;在同样条件下,Fe3O4的掺杂使电极过电位增大50.2mV、快速放电能力降低11.6%,并导致电极的电荷保持能力下降。从MmNi3.5Mn0.4Co0.7Al0.4电极的综合性能考虑,Cr2O3的掺杂对改善贮氢电极的电化学性能是有利的。 The performances of the hydrogen storage electrode MmNi3.5Mn0.4Co0.7Al0.4（Mm： mischmetal） modified by mixing it with Fe3O4 and Cr2O3were studied. The discharge capacity, charge efficiency of the modified electrodes were increased, activation numbers of the electrodes were reduced to 3 - 5 cycle. The discharge overpotential of modified negative electrodes were decreased 3.0 mV for Cr2O3 and heightened 50.2 mV for Fe3O4. The high-rate dischargeability of the modified electrode was enhanced 8.1% for Cr2O3 and reduced 11.6% for Fe3O4 at 500 mA·g^-1, respectively. The cycling stability of the modified negative electrode was improved by addition of Cr2O3. The wicked charge retention of the electrode containing Fe3O4 was measured. Considering the global effect of metal oxides addition on the overall performance of MmNi3.5Mn0.4Co0.7Al0.4 alloy electrode, Cr2O3 was an appropriate additive.

作者赵东江马松艳

机构地区绥化学院化学与制药工程系

出处《科学技术与工程》 2008年第12期3301-3304,共4页 Science Technology and Engineering

基金黑龙江省教育厅科学技术研究项目(10511195)资助

关键词电化学性能贮氢电极金属氧化物掺杂 electrochemical property hydrogen storage electrode metal oxide adulteration

分类号 TM911.3 [电气工程—电力电子与电力传动]

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参考文献2

1董桂霞,杜军,朱磊,吴伯荣.CoO添加剂对La_(0.7)Mg_(0.3)(Ni_(0.85)Co_(0.15))_(3.5)贮氢合金电化学性能的影响[J].中国稀土学报,2006,24(4):465-469. 被引量：3
2夏同驰,张胜利,王树新,黄鲲,田文增.微包覆钴贮氢合金电极电化学性能的研究[J].电化学,2004,10(2):235-239. 被引量：8

二级参考文献23

1罗永春,章应,阎汝煦,张法亮,康龙,陈剑虹.La_(2-x)MgNi_(9-5x)(x=0～1.0)贮氢合金的晶体结构与电化学性能研究[J].中国稀土学报,2005,23(1):11-15. 被引量：9
2Kadir K, Sakai T, Uehara I. Synthesis and structure determination of a new series of hydrogen storage alloys; RMg2Nig(R = La,Ce, Pr, Nd, Sm and Gd) built from MgNi2 laves-type ahernating with AB5 layers [J]. J. Alloys Compds., 1997, 257: 115.
3Chen J, Takeshita H T, Tanaka H, et al. Hydriding properties of LaNi3 and CaNi3 and their substitutes with PuNi3-type structure[J]. J. Alloys Compds., 2000, 302: 304.
4Liao B, Lei Y Q, Chen L X, et al. A study on the structure and electrochemical properties of La2Mg(Ni0.95M0.05 )9(M = Co,Mn, Fe, Al, Cu, Sn) hydrogen storage electrode alloys [J]. J.Alloys Compds., 2004, 376: 186.
5Kohno T, Yoshida H, Kawashima F, et al. Hydrogen storage properties of new ternary system alloys: MaeMgNi9, LasMg2Ni23,La3MgNi14[J]. J. Alloys Compds., 2000, 311: L5.
6Zhang X B, Sun D Z, Yin W Y, et al. Effect of La/Ce ratio on the structure and electrochemical characteristics of La0.7-x CexMg0.3Ni2.8Co0.5(x = 0.1 - 0.5)hydrogen storage alloys [J].Electrochimica Acta, 2005, 50: 1957.
7Liu Y F, Pan H G, Gao M X, et al. Effect of Co content on the structural and electrochemical properties of the La0.7Mg0.3Ni3.4-xMn0.1Cox hydride alloys Ⅱ. Electrochemical properties [J]. J.Alloys Compds., 2004, 376: 304.
8Pan H G, Chen N, Gao Mingxia, et al. Effects of annealing temperature on structure and the electrochemical properties of La0.7Mg0.3Ni2.45Co0.75Mn0.1Al0.2 hydrogen storage alloy [J]. J.Alloys Compds., 2005, 397: 306.
9Zhang Y H, Dong X P, Guo S H, et al. Microstructures and electrochemical performances of La2Mg(Ni0.85Co0.15 )9Mx (M = B,Cr, Ti ; x = 0, 0.1 ) electrode alloys prepared by casting and rapid quenching [J]. International Journal of Hydrogen Energy,2006, 31: 63.
10Adzic G D, Johnson S, Brnn J M, et al. Function of cobalt in AB5Hxelectrodes [J]. J. Alloys Compds., 1997, 253- 254:579.

共引文献9

1JIANG Yuwei,LIU Xiaopeng,JIANG Lijun,WANG Shumao,YANG Hongguang.Designing appropriate heat treatment temperature for LaNi_(3.8)Al_(0.75)Mn_(0.45) alloy[J].Rare Metals,2006,25(z1):243-246. 被引量：3
2夏同驰,董会超,王树新,陈顺木,靳明辉,张治军.微包覆对贮氢电极性能及放电机理的影响[J].电源技术,2005,29(10):652-654. 被引量：7
3李守英,李全安,李克杰.镀镍对多元替代低钴贮氢合金的电化学性能影响[J].表面技术,2005,34(6):35-37. 被引量：2
4李守英,李全安,李克杰.化学镀镍对低钴贮氢合金放电性能的影响[J].电池,2006,36(2):132-134. 被引量：2
5赵东江,马松艳.Cr_2O_3掺杂对混合稀土贮氢电极性能影响的研究[J].应用化工,2007,36(2):150-152.
6李守英,李全安,尹开勤.镀镍对低钴贮氢合金电化学性能的影响[J].稀土,2007,28(2):20-22. 被引量：1
7马松艳,赵东江.热碱对MmNi_(3.5)Mn_(0.4)Co_(0.7)Al_(0.4)贮氢电极放电性能的影响[J].应用化工,2007,36(5):428-431.
8康龙,田晓光,罗永春,阎汝煦.La-Mg-Ni系A_2B_7型贮氢合金表面包覆铜及其电化学性能[J].兰州理工大学学报,2008,34(4):1-5. 被引量：6
9李倩,高峰,吉力强,曹慧,王永光,徐津,景永强.储氢合金表面处理的研究进展[J].金属功能材料,2014,21(4):28-35. 被引量：2

1马松艳,张文静.MLNi4Cr和MLNi4Si贮氢电极的性能[J].哈尔滨科学技术大学学报,1996,20(1):98-102.
2马松艳,赵东江.混合电解液中贮氢电极性能的研究[J].阜阳师范学院学报（自然科学版）,2002,19(4):21-22.
3张莹,刘开宇,张伟,王洪恩.二氧化锰超级电容器的电极电化学性质[J].化学学报,2008,66(8):909-913. 被引量：27
4陈卫祥,唐致远,郭鹤桐.贮氨合金的表面处理及其对电极性能的影响[J].电源技术,1996,20(1):29-33. 被引量：10
5赵东江,马松艳.Cr_2O_3掺杂对混合稀土贮氢电极性能影响的研究[J].应用化工,2007,36(2):150-152.
6张宾,谢永才,崔忠彬.基于Peukert模型的车用纳米磷酸铁锂电池性能研究[J].汽车工程学报,2015,5(6):415-420. 被引量：1
7郭晓亮,王毅,是亚明.谐振复位正激同步整流电路的研究[J].电力电子技术,2009,43(5):58-60.
8李志友,曹笃盟,周科朝.热电池用锂钒氧化物正极材料的放电模式[J].中国有色金属学报,2008,18(1):59-66. 被引量：3
9苏小笛,唐致远,刘昭林,郭鹤桐.添加剂对粘结镍电极性能的影响[J].天津大学学报,2000,33(2):223-226. 被引量：1
10丁桂甫,张寿柏,徐东,周狄,杨春生,沈天慧.铅晶体蓄电池正极的多孔电极性质研究[J].上海交通大学学报,1996,30(11):140-146.

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掺杂金属氧化物贮氢电极的电化学性能(英文)

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