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1)  hydrogen storage
储氢
1.
Research on high capacity Mg-based hydrogen storage material and its hydrogen storage performance;
大容量镁基储氢材料及其储氢性能
2.
Preparation of magnesium/carbon nanocomposites for hydrogen storage by reaction milling;
反应球磨法制备镁/碳纳米复合储氢材料
3.
Research progress of hydrogen storage in carbon nanotubes;
碳纳米管储氢性能的研究进展
2)  storing hydrogen
储氢
1.
Moreover,the applications of the carbon nano-tube in the fiber materials,composite materials,electronic devices,catalysis and storing hydrogen are given.
介绍了碳纳米管的发展历史、结构、制备方法,并重点介绍了碳纳米管在纤维材料、复合材料、电子器件、催化、储氢等领域的应用。
2.
This paper introduces that a computer simulates the structure of carbon nanotubes and the process of storing hydrogen in them.
介绍计算机模拟碳纳米管结构和储氢过程。
3)  hydrogen storage/generation
储氢/制氢
1.
Hydrogen generation(HG) from catalytic hydrolysis of sodium borohydride(NaBH_4) solution is a promising integrated technology for on-board hydrogen storage/generation.
硼氢化钠(NaBH4)催化水解制氢是一项具备车载氢源应用前景的储氢/制氢一体化技术。
4)  hydrogen storage material
储氢材料
1.
Effect of ball milling methods on synthesis and desorption properties of nanocrystalline Mg_2FeH_6 hydrogen storage materials;
球磨方式对纳米晶Mg_2FeH_6储氢材料合成与放氢性能的影响
2.
Research on influence factors and preparation of carbon nanometer ball hydrogen storage material;
碳纳米球储氢材料的制备及影响因素研究
3.
Development of research on a kind of new energy carrier-hydrogen storage materials;
新型能源载体—储氢材料研究进展
5)  hydrogen storage alloy
储氢合金
1.
Study on properties of hydrogen storage alloy recycled by a new method;
新法回收废储氢合金性能的研究
2.
Factors affecting co-precipitation in preparation of CeNi_5 hydrogen storage alloys;
储氢合金CeNi_5制备中共沉淀的影响因素研究
3.
Structure and electrochemical properties of La_(0.8-x)RE_xMg_(0.2)Ni_(3.2)Co_(0.6) hydrogen storage alloys;
La_(0.8-x)RE_xMg_(0.2)Ni_(3.2)Co_(0.6)储氢合金的结构及电化学性能
6)  hydrogen storage property
储氢特性
1.
In this review,the recent progress on the morphology,microstructure,synthesis,theoretical calculation,hydrogen storage property and electrochemical hydrogen storage of CNT was investigated.
大量研究工作表明 :碳纳米管具有储氢的理想结构 ,它的储氢特性与制备工艺、测试条件、计算方法等密切相关 ,大比表面积、大直径、表面活化和搀杂后的碳纳米管具有好的储氢性能 ,定向多壁碳纳米管具有较好的电化学性
2.
The results showed that the catelytic activity of nano NiCe particles was related to both hydrogen storage property and the existence of NiCe alloys in the surface of nano NiCe particles.
利用氢电弧等离子法制备具有储氢特性纳米镍铈粒子,并在气相苯加氢反应中研究了其催化特性,发现其催化活性与储氢特性及表面层中NiCe合金存在有关,且具有高的选择性和热稳定性,这与纳米粒子独特的结构及铈的加入有
补充资料:储氢材料
储氢材料
hydrogen storage material
    一类能可逆地吸收和释放氢气的材料。最早发现的是金属钯,1体积钯能溶解几百体积的氢气,但钯很贵,缺少实用价值。20世纪70年代以后,由于对氢能源的研究和开发日趋重要,首先要解决氢气的安全贮存和运输问题,储氢材料范围日益扩展至过渡金属的合金。如镧镍金属间化合物就具有可逆吸收和释放氢气的性质:
   !!!C0831_1每克镧镍合金能贮存0.157升氢气,略为加热,就可以使氢气重新释放出来。LaNi5是镍基合金,铁基合金可用作储氢材料的有TiFe,每克TiFe能吸收贮存0.18升氢气。其他还有镁基合金,如Mg2Cu、Mg2Ni等,都较便宜。
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