DocumentCode
307123
Title
Surface-modified Mg2Ni-type negative electrode materials for Ni-MH battery
Author
Cui, N. ; Luan, B. ; Bradhurst, D. ; Liu, H.K. ; Dou, S.X.
Author_Institution
Inst. for Mater. Technol. & Manuf., Wollongong Univ., NSW, Australia
fYear
1997
fDate
14-17 Jan 1997
Firstpage
317
Lastpage
322
Abstract
In order to further improve the electrode performance of Mg1.9Y0.1Ni0.9Al0.1 alloy at ambient temperature, its surface was modified by an ultrasound pretreatment in the alkaline solution and microencapsulation with Ni-P coating. The effects of various surface modifications on the microstructure and electrochemical performance of the alloy electrodes were investigated and compared in this paper. It was found that the modification with ultrasound pretreatment significantly improved the electrocatalytic activity of the negative electrode and then reduced the overpotential of charging/discharging, resulting in a remarkable increase of electrode capacity and high-rate discharge capability but having little influence on the cycle life. However, the electrode fabricated from the microencapsulated alloy powder showed a higher discharge capacity, better high-rate discharge capability and longer cycle life as well
Keywords
acoustic applications; catalysis; crystal microstructure; electrochemical electrodes; magnesium alloys; nickel; nickel alloys; secondary cells; surface treatment; ultrasonic applications; Mg1.9Y0.1Ni0.9Al0.1; Mg1.9Y0.1Ni0.9Al0.1 alloy; Mg2Ni; Mg2Ni-type negative electrode materials; Ni-MH battery; Ni-P; Ni-P coating; alkaline solution; ambient temperature; charging/discharging overpotential; electrocatalytic activity; electrochemical performance; electrode capacity increase; electrode performance improvement; high-rate discharge capability; higher discharge capacity; longer cycle life; microencapsulated alloy powder; microencapsulation; microstructure; surface modification; ultrasound pretreatment; Aluminum alloys; Coatings; Electrodes; Microstructure; Nickel alloys; Powders; Surface charging; Surface discharges; Temperature; Ultrasonic imaging;
fLanguage
English
Publisher
ieee
Conference_Titel
Battery Conference on Applications and Advances, 1997., Twelfth Annual
Conference_Location
Long Beach, CA
ISSN
1089-8182
Print_ISBN
0-7803-3631-3
Type
conf
DOI
10.1109/BCAA.1997.574124
Filename
574124
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