Enhancing the hydrogen storage capacity of TiFe by utilizing clusters

Keisuke Takahashi; Shigehito lsobe

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Enhancing the hydrogen storage capacity of TiFe by utilizing clusters

机译：利用簇来提高成型储氢容量

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The titanium iron (TiFe) alloy is a notable hydrogen storage material which can operate at ambient temperature. However, low hydrogen storage capacity is a major drawback that is needed to be overcome. Enhancement of the hydrogen capacity of TiFe is considered by utilizing TiFe clusters within the density functional theory. Calculations reveal that TiFe clusters can absorb large amounts of hydrogen. Furthermore, the desorption energies of Ti1Fe1H6 are lower than that of butkTiFeH where the physical origins of low desorption energies are considered to be due to the closed shell structure of Ti1Fe1. This indicates that the Ti1Fe1H6 has the possibility to operate at near ambient temperature; therefore, only hydrogen gas pressures are required to control the hydrogen storage and release.

机译：钛铁（TIFE）合金是一个值得注意的储氢材料，可在环境温度下运行。然而，低储氢容量是需要克服的主要缺点。通过利用密度泛函理论内的TIFE集群考虑TIFE的氢气能力的增强。计算揭示了TIFE簇可以吸收大量的氢。此外，Ti1Fe1H6的解吸能量低于Butktifeh的解吸能量，其中低解吸能量的物理起源被认为是由于Ti1Fe1的闭合壳结构。这表明Ti1Fe1H6有可能在近环境温度下运行; 因此，仅需要氢气压力来控制储氢和释放。

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《Physical chemistry chemical physics: PCCP》 |2014年第31期|共6页
作者
Keisuke Takahashi; Shigehito lsobe;
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作者单位

Graduate School of Engineering Hokkaido University N-13 W-8 Sapporo 060-8278 Japan.;

Research Department Creative Research Institution Hokkaido University Japan;

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正文语种 eng
中图分类物理学;化学;
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3. Enhancing the hydrogen storage capacity of TiFe by utilizing clusters [J] . Keisuke Takahashi, Shigehito lsobe Physical chemistry chemical physics: PCCP . 2014,第31期

机译：利用簇来提高成型储氢容量
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5. Dependence of hydrogen storage characteristics of Mg-TiFe_(0.92)Mn_(0.08) composite on amount of TiFe_(0.92)Mn_(0.08) [J] . T. Kondo, K. Shindo, Y. Sakurai Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2005,第0期

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6. An advanced TiFe series hydrogen storage material with high hydrogen capacity and easily activated properties [C] . Su Lanyin, Liu Fangjie, Bao Deyou World Hydrogen Energy Conference . 1988

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Enhancing the hydrogen storage capacity of TiFe by utilizing clusters

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