Electrochemical properties of Ti45−xZr30+xNi25 (x=−4, 0, 4) quasicrystal and amorphous electrodes produced by mechanical alloying-Reference-Cited by-同舟云学术

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Electrochemical properties of Ti45−xZr30+xNi25 (x=−4, 0, 4) quasicrystal and amorphous electrodes produced by mechanical alloying

Published:2013-12 Issue: Volume:580 Page:S251-S254
ISSN:0925-8388
Container-title:Journal of Alloys and Compounds
language:en
Short-container-title:Journal of Alloys and Compounds

Author:

Ariga Youhei,Takasaki Akito,Kuroda Cihiro,Kulka A.

Publisher

Elsevier BV

Subject

Materials Chemistry,Metals and Alloys,Mechanical Engineering,Mechanics of Materials

Reference8 articles.

1. Physical Properties of Quasicrystals;Gibbons,1999

2. A. Takasaki, N. Imai, K.F. Kelton, Synthesis of quasicrystal phases by mechanical alloying of Ti45+xZr38−xNi17 (−4⩽x⩽16) powder mixtures, and their hydrogen storage properties, in: E. Belin-Ferré, M. Feuerbacher, Y. Ishii, D.J. Sordelet (Eds.), Materials Research Society Symposium Proceedings, 805 Pittsburgh, PA, 2004, p. 351.

3. Electrochemical Hydrogenation of Ti[sub 45]Zr[sub 38]Ni[sub 17] Quasi Crystal and Amorphous Powders Produced by Mechanical Alloying

4. Synthesis of Ti-Zr-Ni amorphous and quasicrystal powders by mechanical alloying, and their electrochemical properties

5. Structure of Rapidly Quenched Al-Mn

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1. Preparation and electrochemical hydrogen storage properties of Ti49Zr26Ni25 alloy covered with porous polyaniline;International Journal of Hydrogen Energy;2020-04

2. Improved electrochemical hydrogen storage properties of Ti49Zr26Ni25 quasicrystal alloy by doping with Pd and MWCNTs;International Journal of Hydrogen Energy;2019-11

3. Fabrication and electrochemical hydrogen storage performance of Ti49Zr26Ni25 alloy covered with Cd/Pd core/shell particles;International Journal of Hydrogen Energy;2019-09

4. Enhanced electrochemical hydrogen storage performance of Ti49Zr26Ni25 alloy by doping with Pd nanoparticles deposited MWCNTs;Solid State Sciences;2019-08

5. Influence of LiH addition on electrochemical hydrogen storage performance of Ti45Zr38Ni17 quasicrystal;Solid State Sciences;2019-01

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