金属氢化物

稀土基AB2型金属氢化物电极衰变机理的探索

Mechanism of metal hydrides electrode disintegration for rare earth-based AB_2 type alloy

其中1D不仅计算简单，而且对无机氢化物AHm具有良好的区分能力，1D与非金属氢化物的酸性pKa具有高度的相关性。

The 1 D among mD , which is very easy to be calculated and with good discrimination for inorganic hydrides , has the close correlativity with the acidity ( pK a ) of non metal hydrides .

一种新的三元金属氢化物Mg2CoH5的制备及性质研究

Preparation and characteristics of a new ternary metal hydride mg_2coh_5

400nm~3／h用金属氢化物提取超纯氢装置

400 nm ~ 3 / h Ultra Pure Hydrogen Generation Equipment Using Metal Hydride

这种Ni（OH）2特别适合于用作金属氢化物－镍电池的正极活性材料。

It is suitable for using as positive active material in Ni MH batteries .

HmX型非金属氢化物的熵与分子对称性的关系

The relation between the entropy of h_mx type non-metal hydrides and symmetry

影响AB5型金属氢化物电极寿命的因素

Factors Affecting the Cycle Life of AB_5 Type Hydride Electrode

溶剂对SBS粘合金属氢化物电极的影响

Influence of Solvents on the Metal Hydride Electrode Binded by SBS Elastomer

铜包覆AB5型金属氢化物电极的电化学性能研究

Investigations of electrochemical performance of copper coated AB 5 type metal hydride electrodes

金属氢化物镍蓄电池SOC估计的EIS研究

Study on electrochemical impedance spectroscope for determining the state-of-charge of nickel metal hydride battery

La2Mg（17）金属氢化物催化苯加氢的研究

Hydrogenation of Benzene by La_2Mg_ ( 17 ) Based Metal Hydride as Catalyst

金属氢化物（AlH3）n的热中子非弹性散射谱

Inelastic scattering spectra of thermal neutrons by aluminium hydride ( alh_3 ) _n

通过试验测得金属氢化物电极的电化学交流阻抗谱（EIS），经过分析得到该电极的等效电路图。

Electrochemical impedance spectra ( EIS ) of a metal hydride electrode were interpreted by means of an equivalent circuit .

镍-金属氢化物（Ni-MH）电池是贮氢合金研制成功之后的产物.新的高性能贮氢合金的研制是提高Ni-MH电池性能的关键之一。

New high performance hydrogen storage alloys are crucial to improving the performance of Ni-MH batteries .

金属氢化物镍（MH／Ni）电池是现今应用最广泛的二次电池之一，提高MH／Ni电池的功率特性是MH／Ni电池在电动汽车等领域推广应用的重要任务。

As one of the most widely used rechargeable batteries , nickel-metal hydride ( MH / Ni ) batteries are required to improve the high power characteristics considering application for electric vehicles .

金属氢化物-镍（MH／Ni）电池由于具有较高的比能量和比功率、较长的循环寿命、适中的价格以及对环境友好等优点，是电动工具、混合电动车的首选电池。

Nickel-metal-hydride ( Ni-MH ) battery is widely used in electric tools and hybrid electric vehicles due to its high specific energy and power , long cycle life , reasonable price and environmental friendship .

用电化学阻抗谱（EIS）方法，对金属氢化物（MH）电极和两种商品化金属氢化物/镍（MH/Ni）电池性能进行了研究。

The performances of the metal hydride ( MH ) electrodes and metal hydride / nickel ( MH / Ni ) batteries were investigated by using electrochemical impedance spectroscopic technique ( EIS ) .

研究了金属氢化物-镍（MH-Ni）蓄电池在开路条件下60℃环境中的储存性能。

The electrochemical performance of nickel-metal-hydride ( Ni-MH ) battery was investigated before and after storage in atmosphere at 60 ℃ under open-circuit condition .

研究了酞菁铁（FePc）对金属氢化物-镍电池浮充性能的影响。

Effects of iron phthalocyanine ( FePc ) on the floating-charge performance of nickel metal hydride batteries were examined .

研究了一种镍氢电池负极&金属氢化物电极新型粘合剂SBS，测定了以SBS为粘合剂的电极性能，并与PTFE和HPMC两种粘合剂进行了对比。

A new binder SBS for metal hydride electrode ( MH electrode ) is studied , the performances of the electrode using SBS as binder are examined and compared with those of the binders of PTFE and HPMC .

目前广泛研究中的储氢材料有：碳基纳米材料、金属氢化物、MOFs结构储氢材料和有机小分子储氢材料。

At present , extensive research in the hydrogen storage material such as carbon-based nano material , metal hydride , MOFs structures and organic hydrogen storage material .

贮氢合金表面状态和组成是影响金属氢化物（MH）电极电催化活性的重要因素，MH电极的表面改性处理是改善电极性能的有效方法。

The morphology and surface composition of the hydrogen storage alloy are important factors that affect the performances of metal hydride ( MH ) electrodes . The performances of MH electrodes are effectively improved by the surface modification .

通过金属氢化物贮氢合金的充、放氢特性试验，以及贮氢器与质子交换膜燃料电池（PEMFC）发电系统的匹配等试验，获得金属氢化物贮氢合金与PEMFC相匹配的技术特性。

By virtue of the characteristic test of aeration and release of metal hydride hydrogen storage alloy and the matching of hydrogen storage tank and PEMFC power system , matching characteristic of hydrogen storage alloy and PEMFC was acquired .

MH－Ni电池是近年来碱性蓄电池领域的研究热点，本文介绍了MH－Ni电池领域在贮氢材料、金属氢化物负极、镍正极以及电池性能水平等方面的研究进展和良好的发展前景。

Ni MH battery has been the research focus in the field of alkaline secondary batteries those years . The progress of researches on hydrogen storage alloys , metal hydride anode , nickel oxide cathode , and Ni MH batteries are introduced in this paper .

比能量高，性能优良的金属氢化物镍电池（MH-Ni）在电子、通讯、计算机等行业的应用相当广泛，在电动汽车领域也将得到广泛应用。

Metal hydride nickel ( MH-Ni ) batteries with high energy density and excellent properties , was widely used in many fields such as electronic industry , communication , computer and electric vehicles .

具体的研究实例包括：尖晶石锂锰氧化物中Li+的嵌入脱出过程，AB5型金属氢化物电极表面氧化物的性能和钢筋电极表面钝化膜及其孔蚀过程。

The examples include study of electrochemical Li + intercalation process , characterization of surface oxide film on AB 5 type electrodes and passive film and pitting corrosion of Rebar electrodes .

本文报导了用Be过滤探测器谱仪对金属氢化物ZrH（1.66）和TiH（1.92）的非弹性散射中子能谱的测量结果，以及根据A。

Inelastic scattered neutron spectra of metal hydrides ZrH_ ( 1.66 ) and TiH_ ( 1.92 ) have been measured by beryllium filter detector spectrometer and their phonon spectra have been deduced from the neutron spectra according to the A.

1/2A型金属氢化物-镍电池的研制

Development of 1 / 2 A size nickel metal hydride battery

导电剂对金属氢化物电极性能的影响

Effect of Conductive Materials on the Performance of Metal Hydride Electrode

镍氢（镍金属氢化物）电池才真正的轻巧。

NiMH ( Nickel Metal Hydride ) batteries are really neat .