密度泛函;团簇;储氢;发光材料。
Cluster; Hydrogen Storage; Density Functional Theory; Organic Solar Cell Material.
轻质高压储氢是一种切实可行的氢能储运方法。
High pressure hydrogen is a feasible method for hydrogen storage and is widely used by hydrogen fuel cell automobiles.
本文综述了储氢材料的种类及其最新研究进展。
Recent progress in hydrogen storage material has been reviewed in this paper.
本文报告了一种方法评估储氢合金电极的循环寿命。
A method to test the cycle life of hydrogen storage alloy electrode was reported.
该文综述并预测了镁基合金在储氢材料上的应用前景。
The article summarizes and predicts the prospects of magnesium and its alloys used as hydrogen storage materials.
本文总结了纳米储氢合金颗粒与复合材料的制备方法;
The fabrication methods of HSA nanoparticles and composite HSA are summarized.
流体存储容器容纳可逆地释放并存储氢气的储氢材料。
A fluid storage vessel contains a hydrogen storage material that reversibly releases and stores hydrogen gas.
指出碳纳米管储氢的机制可用势能效应和空间效应描述。
We pointed out the mechanism of hydrogen storage in CNT can be described by the potential effect and the space effect.
高效储氢是氢能利用技术中须要研究解决的关键问题之一。
High efficient storage of hydrogen energy is one of the key technologies that have been paid more attentions.
储氢合金,合金表面改性方法,电池和碱性二次电池负极。
Hydrogen-absorbing alloy, method of surface modification of the alloy, negative electrode for battery and alkaline secondary battery.
介绍了这种储氢技术的原理和特点,综述了国内外研究现状。
Principles and characteristics of this reversible hydrogen storage technology are introduced, and its research progress is reviewed.
利用碳纳米管储氢已经成为了纳米科技领域中的一项研究热点。
Using carbon nanotubes to store hydrogen has been a hotspot in the field of nanotechnology.
这时候,材料出现了更多微孔,从而增加了表面面积和储氢空间。
At this point the material becomes more porous, increasing its surface area and its hydrogen-storing capacity.
用恒电位阶跃法研究了低温下ab5型储氢合金中的氢扩散行为。
The hydrogen diffusion behavior of AB5-based alloy at low temperature is studied by constant potential step technique.
介绍了氢气的储运技术,特别是金属氢化物储氢技术的原理和特性。
The technology of hydrogen gas reserving and transporting is introduced, especially the characteristics and principle of hydrogen-reserving technology of metal hydride.
介绍了采用铝热还原法制备富钒储氢钒镍合金的工艺及其影响因素。
It introduces the craft and its influential factors to the method of developing vanadium nickel alloy with rich vanadium and reserved hydrogen.
有机液态氢化物可逆储放氢技术是一种具有独特优点的新型储氢技术。
Liquid organic hydrides in hydrogen storage and transport is a new type of technology with some unique perfect advantages.
近年来,我国在稀土储氢合金的研究与应用方面都取得了很大的成绩。
Many great achievements were made in research and application of rare-earth hydrogen storage alloys in the past several years.
指出碳纳米管储氢(物理吸附)的机制可用势能效应和空间效应描述。
We pointed out the mechanism of hydrogen storage (physisorption) in CNT can be described by the potential effect and the space effect.
本文首先对国内外BCC固溶体型储氢合金的研究进展进行了全面综述。
In this thesis, the research and development of hydrogen storage alloys with BCC vanadium-based solid solution were reviewed first.
这为进一步研究碳纳米管的储氢机理和储氢容量等问题提供了必要的依据。
It provides an essential theoretical evidence for studying mechanism and capacity of hydrogen storage further.
本论文的工作集中于储氢合金的研究,重点是关于镁基合金的制备和研究。
This dissertation is focused on the research of the hydrogen storage alloy, and the emphasis of my work is mainly about the preparation and research of magnesium based alloy.
综述近十年来国内外有关纳米镁储氢材料吸放氢动力学的研究现状和发展趋势。
The development of Mg nano-materials for hydrogen storage in the recent decade has been reviewed in this paper.
并在对高压储氢设备进行风险辨识和评价的基础上,提出了相应的风险控制措施。
Based on the risk assessment on the high pressure hydrogen storage equipment, a risk control methord was put forward.
根据储氢瓶活化测试的要求,本文还设计了一套活化装置的控制以及流量采集系统。
The paper designs a manual control system and a flow acquisition system of a device for activating hydrogen storage alloys.
本论文是研发具有高储氢量、优良动力学性能新型液固双相储氢系统工作的一部分。
The aim of the present investigation is to develop a liquid-solid two-phase hydrogen storage system with a high hydrogen storage capacity and a good kinetic property.
近年由于其优良储氢性能得以被发现,氢化铝钠成为最有前景的络合金属氢化物之一。
More recently, sodium aluminum hydride been considered as one of most promising complex metal hydride, for its excellent performance of hydride storage have been discovered.
对车用燃料氢气的储存技术进行了综述和比较,提出高压储氢是氢气储存的主要方向之一。
Summarizing and comparing the hydrogen storage technology about vehicle fuel, this paper draws a conclusion that high pressure hydrogen storage is appropriate and easy.
另外在研究过程中还发现研磨时间和研磨速度的变化,对材料的储氢性能也有一定的影响。
Additionally, grinding time and grinding speed have been found greatly affect the performances of the composite.
另外在研究过程中还发现研磨时间和研磨速度的变化,对材料的储氢性能也有一定的影响。
Additionally, grinding time and grinding speed have been found greatly affect the performances of the composite.
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