Abstract
Seven multiphase YNi3 and YN4 based alloys have been prepared by arc-melting. Based on X-ray phase and structural analysis synthesized alloys depending on its composition contain intermetallics with PuNi3, Gd2Co7 and CaCu5 structure types. The influence of Y/La and Ni/Co/Mn/Al substitution on the discharge characteristics of the AB3 and AB4 electrodes was studied. Substitution Y by La and further Ni by Mn and Al lead to increasing discharge capacity from 40 to 341 mAh/g. Positive effect of Ni/Co/Al or Ni/Mn/Al substitution was also observed for the AB3 electrodes. The high discharge capacities of 318 mAh/g and 340 mAh/g were seen for the YNi2.65Co0.2Al0.15 and YNi2.65Mn0.2Al0.15 electrodes.
Publisher
Trans Tech Publications, Ltd.
Subject
Condensed Matter Physics,General Materials Science,Atomic and Molecular Physics, and Optics
Reference30 articles.
1. V.A. Yartys, O.V. Ryabov, M.V. Lototskyy, Material Science and Structure Chemistry of Intermetallic Hydrides, SPOLOM, Lviv, (2006).
2. K. Sasaki, H.-W. Li, A. Hayashi, J. Yamabe, T. Ogura, S.M. Lyth, Hydrogen Energy Engineering, Springer Japan, (2015).
3. D.P. Broom. Hydrogen Storage Materials, Springer-Verlag London, (2011).
4. D. Linden, T.B. Reddy. Handbook of Batteries, 3rd ed., The McGraw-Hill Companies. Inc, (2002).
5. Yu.V. Verbovytskyy, I.Yu. Zavaliy, New metal-hydride electrode materials based on R1-xMgxNi3-4 alloys for chemical current sources, Mat. Sci. 51(4) (2016) 443-456.
Cited by
3 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献