Mg-based hydrogen storage material is very promising for hydrogen storage and heat storage application because of its thermal capacity and heat effect.
镁基储氢材料储氢容量大,并且吸放氢过程伴随一定的热效应,从而在氢气的存储和热能存储等方面具有潜在的应用前景。
A fluid storage vessel contains a hydrogen storage material that reversibly releases and stores hydrogen gas.
流体存储容器容纳可逆地释放并存储氢气的储氢材料。
Hydrogen storage alloy is an important functional material.
贮氢合金是一种重要的功能材料。
Recent progress in hydrogen storage material has been reviewed in this paper.
本文综述了储氢材料的种类及其最新研究进展。
The method for making the hydrogen storage material includes the steps of: providing a hydrogen storage powder and oxidizing the powder with a controlled oxidation reaction.
制备氢存储材料的方法包括如下步骤:提供氢存储粉末和用受控的氧化反应氧化该粉末。
As the key material of nickel metal hydride batteries, rare-earth-based hydrogen storage alloy is one of the few alloys which are still widely used.
作为镍氢电池的关键材料,稀土系贮氢合金是目前为数极少的实用化合金之一。
An anti-pyrophoric hydrogen storage material having an engineered surface oxide to enhance initial activation and a method for making the same.
一种具有建造的表面氧化物以提高初始活化的抗自燃氢存储材料和制备该材料的方法。
Cluster; Hydrogen Storage; Density Functional Theory; Organic Solar Cell Material.
密度泛函;团簇;储氢;发光材料。
It was proposed that the Mg-based hydrogen storage material of excellent hydriding and dehydriding properties can be prepared by using the present technology. The application state of Mg-base hyd...
分别对合金材料和复合材料的储氢性能进行了系统的阐述,指出现有的技术手段已经能够制备具有优异充放氢性能的镁基储氢材料。
In the synthesizing process, transition metal is directly added so as to synthesize reversible hydrogen storage material in a short time.
在合成的过程中采用直接加入过渡金属,从而达到在短时间内合成具有可逆 的储氢材料。
In the organic hydrogen storage material, organic liquid and metal organic are introduced.
而有机物储氢材料主要介绍了有机液体和金属有机物。
The utility model relates to a vacuum melting-refining furnace for producing neodymium, iron, boron and rare earth permanent magnetic alloy material and rare earth hydrogen-storage alloy material.
本实用新型涉及一种生产钕铁硼稀土永磁合金材料及稀土储氢合金材料的真空熔炼炉。
Therefore, it has remarkably potential application in hydrogen storage material and anode material for lithium secondary batteries.
空心碳纳米球在储氢、锂离子负极材料等领域应具有类似于碳纳米管的潜在的巨大应用前景。
Therefore, it has remarkably potential application in hydrogen storage material and anode material for lithium secondary batteries.
空心碳纳米球在储氢、锂离子负极材料等领域应具有类似于碳纳米管的潜在的巨大应用前景。
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