Journal of Magnesium and Alloys | 卷:9 |
Microstructure and battery performance of Mg-Zn-Sn alloys as anodes for magnesium-air battery | |
Wei Gao1  Xize Chen1  Jenny Malmström1  Joseph Vella2  Fanglei Tong2  Shanghai Wei2  | |
[1] Materials Engineering, Faculty of Engineering, The University of Auckland, New Zealand; | |
[2] Department of Chemical & | |
关键词: Magnesium alloys; Alloy anode; Self-corrosion; Magnesium-air battery; Discharge performance; | |
DOI : | |
来源: DOAJ |
【 摘 要 】
Four Mg-xZn-ySn (x = 2, 4 and y = 1, 3 wt.%) alloys are investigated as anode materials for magnesium-air (Mg-air) battery. The self-corrosion and battery discharge behavior of these four Mg-Zn-Sn alloys are analyzed by electrochemical measurements and Mg-air battery tests. The results show that addition of Sn stimulates the electrochemical activity and significantly improves the anodic efficiency and specific capacity of Mg-Zn alloy anodes. Among the four alloy anodes, Mg-2Zn-3Sn (ZT23) shows the best battery discharge performance at low current densities (≤ 5 mA cm−2), achieving high energy density of 1367 mWh g−1 at 2 mA cm−2. After battery discharging, the surface morphology and electrochemical measurement results illustrate that a ZnO and SnO/SnO2 mixed film on alloy anode surface decreases self-corrosion and improves anodic efficiency during discharging. The excessive intermetallic phases lead to the failure of passivation films, acting as micro-cathodes to accelerate self-corrosion.
【 授权许可】
Unknown