金属添加剂与硼原子对MgH2吸解吸特性的影响

IF 1.2 Q4 NANOSCIENCE & NANOTECHNOLOGY international journal of nano dimension Pub Date : 2015-07-01 DOI:10.7508/IJND.2015.03.009

M. Rafiee

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引用次数: 2

摘要

采用从头计算的方法，研究了氢氧化镁(MgH2)的解吸过程。给出了不同MgH2体系中氢原子核四极耦合常数(NQCCs)的计算结果。一些金属原子和硼原子与MgH2基质相互作用的影响(MgH2+M)纳米结构(M=Al, Ti, V, Fe, Ni和B);计算了2个h - nqcc。结果表明，B的引入降低了2 H-NQCC，因此在B的存在下，电荷密度呈下降趋势。但在(MgH2+M)纳米结构(M=Al, Ti, V, Fe和Ni)中，2h - nqcc比纯MgH2大，因此产生了更困难的氢脱附条件。然而，在足够低的B浓度(Mg15BH32);计算预测了稳定的掺杂体系的存在

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Comparison of metal additives and Boron atom on MgH2 absorbing-desorbing characteristics using calculated NQCCs

Using ab initio calculations, the hydrogen desorption from Magnesium hydride (MgH2) was studied. We presented the calculated nuclear quadrupole coupling constants (NQCCs) of hydrogen atom in various systems of MgH2. The effect of interactions of some metal atoms as well as Boron atom with MgH2 host matrix; (MgH2+M) nanostructures (M=Al, Ti, V, Fe, Ni and B); were studied and 2 H-NQCCs were calculated. From results, introduction of B decreased 2 H-NQCC and consequently trend of decrease of charge density in the presence of B was observed. In the other hands introduction of B destabilized initial structure of MgH2, But in (MgH2+M) nanostructures(M=Al, Ti, V, Fe and Ni) the 2 H- NQCCs were larger than those of pure MgH2 and consequently more difficult condition for hydrogen desorption were created. However at sufficiently low B concentration (Mg15BH32); the calculation predicted existence of stable dopant system with greater

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来源期刊

international journal of nano dimension NANOSCIENCE & NANOTECHNOLOGY-

CiteScore

2.80

自引率

20.00%

发文量