1) photochargeable hydrogen storage alloy
光充电储氢合金电极
2) hydrogen storage alloy
储氢电极合金
1.
The effect of temperature on electrochemical properties of hydrogen storage alloy has been systematically investigated.
针对目前储氢电极合金不适用于电动汽车用大型电池的情况 ,以Ml (NiCoMnTi) 5 合金为例 ,系统研究了温度对储氢电极合金电化学性能的影响。
2.
20) hydrogen storage alloys were investigated,and its intrinsic/extrinsic degradation mechanism was analyzed.
研究了储氢电极合金Ti0。
3) Photo-rechargeable hydrogen storage alloy
光充电贮氢合金
4) TiV-based hydrogen storage electrode alloy
钛钒基储氢电极合金
1.
Study on TiV-based hydrogen storage electrode alloy;
钛钒基储氢电极合金研究
5) Mg-based hydrogen storage alloy electrodes
镁基储氢合金电极
6) hydrogen storage electrode
储氢电极
1.
Developing status of nanomaterials for hydrogen storage electrode;
纳米储氢电极材料发展现状
补充资料:储氢合金
分子式:
CAS号:
性质:金属氢化物/镍蓄电池的负极材料。能够吸收氢,与氢生成金属氢化物(如LaNi5Hx)主要有以LaNi5,MmNi5(Mm表示混合稀土)为主的稀土系合金和以TiNi,Ti2Ni,Ti1-xZrxNi等为主的钛系合金。
CAS号:
性质:金属氢化物/镍蓄电池的负极材料。能够吸收氢,与氢生成金属氢化物(如LaNi5Hx)主要有以LaNi5,MmNi5(Mm表示混合稀土)为主的稀土系合金和以TiNi,Ti2Ni,Ti1-xZrxNi等为主的钛系合金。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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