Hydrogen Evolution Inorganic Inhibitors in Alkaline Electrolyte for Aluminum-Air Battery

被引:16
作者
Choi, Seok-Ryul [1 ]
Song, Sol-Ji [1 ]
Kim, Jung-Gu [1 ]
机构
[1] Sungkyunkwan Univ, Dept Mat Sci & Engn, 2066 Seobu Ro, Suwon 16419, South Korea
来源
INTERNATIONAL JOURNAL OF ELECTROCHEMICAL SCIENCE | 2020年 / 15卷 / 09期
基金
新加坡国家研究基金会;
关键词
Aluminum-air battery; Hydrogen evolution; Inhibitor; Battery efficiency; Electrochemical test; AA5052 ALLOY ANODE; ELECTROCHEMICAL-BEHAVIOR; PERFORMANCE; ADDITIVES; CORROSION;
D O I
10.20964/2020.09.65
中图分类号
O646 [电化学、电解、磁化学];
学科分类号
081704 ;
摘要
Arsenic oxide (As(III)), sodium phosphate monobasic anhydrous (H2PO4-), and antimony trioxide (Sb(III)) are used as electrolyte additives in 4M sodium hydroxide (NaOH) electrolyte for Al-air batteries. The effects of inorganic additives are examined through hydrogen evolution and self-corrosion testing, electrochemical analysis, and surface analysis. Electrochemical tests show that the presence of the additives lowers the hydrogen gas evolution rate and inhibits the adsorption of hydrogen on the aluminum surface. The additives in order of effectiveness are: Sb(III) > As(III) > H2PO4-. The addition of additives decreases the self-corrosion of 4N Al, which improves the efficiency of the Al-air battery. The additives are confirmed as effective inhibitors of the hydrogen generation reaction in Al-air batteries.
引用
收藏
页码:8928 / 8942
页数:15
相关论文
共 37 条
[1]   Novel package for inhibition of aluminium corrosion in alkaline solutions [J].
Abdel-Gaber, A. M. ;
Khamis, E. ;
Abo-Eldahab, H. ;
Adeel, Sh. .
MATERIALS CHEMISTRY AND PHYSICS, 2010, 124 (01) :773-779
[2]  
Ahmad Z, 2006, PRINCIPLES OF CORROSION ENGINEERING AND CORROSION CONTROL, P1
[3]   The mechanism of aluminium corrosion in alkaline solutions [J].
Armstrong, RD ;
Braham, VJ .
CORROSION SCIENCE, 1996, 38 (09) :1463-1471
[4]   Electrochemical analysis and mixed potentials theory of ionic liquid based Metal-Air batteries with Al/Si alloy anodes [J].
Aslanbas, Ozgr ;
Durmus, Yasin Emre ;
Tempel, Hermann ;
Hausen, Florian ;
Ein-Eli, Yair ;
Eichel, Rudiger-A. ;
Kungl, Hans .
ELECTROCHIMICA ACTA, 2018, 276 :399-411
[5]   Aluminum anode for aluminum-air battery - Part I: Influence of aluminum purity [J].
Cho, Young-Joo ;
Park, In-Jun ;
Lee, Hyeok-Jae ;
Kim, Jung-Gu .
JOURNAL OF POWER SOURCES, 2015, 277 :370-378
[6]   1-Allyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide as an effective organic additive in aluminum-air battery [J].
Deyab, M. A. .
ELECTROCHIMICA ACTA, 2017, 244 :178-183
[7]   Electrochemical behaviour of aluminium in concentrated NaOH solutions [J].
Doche, ML ;
Rameau, JJ ;
Durand, R ;
Novel-Cattin, F .
CORROSION SCIENCE, 1999, 41 (04) :805-826
[8]   Developments in electrode materials and electrolytes for aluminium-air batteries [J].
Egan, D. R. ;
de Leon, C. Ponce ;
Wood, R. J. K. ;
Jones, R. L. ;
Stokes, K. R. ;
Walsh, F. C. .
JOURNAL OF POWER SOURCES, 2013, 236 :293-310
[9]   The effect of grain size on aluminum anodes for Al-air batteries in alkaline electrolytes [J].
Fan, Liang ;
Lu, Huimin .
JOURNAL OF POWER SOURCES, 2015, 284 :409-415
[10]   An aluminum ionic liquid interface sustaining a durable Al-air battery [J].
Gelman, Danny ;
Shvartsev, Boris ;
Wallwater, Itamar ;
Kozokaro, Shahaf ;
Fidelsky, Vicky ;
Sagy, Adi ;
Oz, Alon ;
Baltianski, Sioma ;
Tsur, Yoed ;
Ein-Eli, Yair .
JOURNAL OF POWER SOURCES, 2017, 364 :110-120
1234