Metallacarboranes: Toward Promising Hydrogen Storage Metal Organic Frameworks

Abhishek K. Singh

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Metallacarboranes: Toward Promising Hydrogen Storage Metal Organic Frameworks

机译：金属碳硼烷：迈向有希望的储氢金属有机框架

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Using first principles calculations, we show the high hydrogen storage capacity of metallacarboranes, where the transition metal (TM) atoms can bind up to 5 H₂-molecules. The average binding energy of 0.3 eV/H favorably lies within the reversible adsorption range. Among the first row TM atoms, Sc and Ti are found to be the optimum in maximizing the H₂ storage (8 wt %) on the metallacarborane cluster. Being an integral part of the cage, TMs do not suffer from the aggregation problem, which has been the biggest hurdle for the success of TM-decorated graphitic materials for hydrogen storage. Furthermore, the presence of carbon atom in the cages permits linking the metallacarboranes to form metal organic frameworks, which are thus able to adsorb hydrogen via Kubas interaction, in addition to van der Waals physisorption.

机译：使用第一性原理计算，我们显示了金属碳硼烷的高储氢能力，其中过渡金属（TM）原子最多可以结合5个H _{2 分子。 0.3eV / H的平均结合能有利地在可逆吸附范围内。在第一行TM原子中，发现Sc和Ti最适合最大化金属碳硼烷簇上的H _{2 储量（8 wt％）。作为笼子不可或缺的一部分，TM不会受到聚集问题的困扰，而聚集问题一直是TM装饰的石墨材料成功储氢的最大障碍。此外，笼子中碳原子的存在允许将金属碳硼烷连接起来以形成金属有机骨架，因此除了范德华物理吸附之外，还能够通过Kubas相互作用吸附氢。}}

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《Journal of the American Chemical Society》 |2010年第40期|p.14126-14129|共4页
作者
Abhishek K. Singh;
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作者单位

Department of Mechanical Engineering and Materials Science, Department of Chemistry, and The Richard E. Smalley Institute for Nanoscale Science and Technology, Rice University, Houston, Texas 77005, and Materials Research Centre, Indian Institute of Scien;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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正文语种 eng
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入库时间 2022-08-18 00:50:24

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Metallacarboranes: Toward Promising Hydrogen Storage Metal Organic Frameworks

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