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Hydrogen storage capacity of Ti-doped boron-nitride and B Be -substituted carbon nanotubes

机译：掺钛氮化硼和B Be取代碳纳米管的储氢能力

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We investigate the hydrogen absorption capacity of two tubular structures, namely, B Be -substituted single-wall carbon nanotube (SWNT) and Ti covered single-wall boron nitride nanotube (SWBNT) using first-principles plane wave method. The interaction of H2 molecules with the outer surface of bare SWBNT, which is normally very weak, can be significantly enhanced upon functionalization by Ti atoms. Each Ti atom adsorbed on SWBNT can bind up to four H2 molecules with an average binding energy suitable for room temperature storage. While the substitution process of Be atom on SWNT is endothermic, the substituted Be strengthens the interaction between tube surface and H2 to hold one H2 molecule. © 2007 The American Physical Society.

机译：我们使用第一性原理平面波方法研究了两个管状结构的氢吸收能力，即B Be取代的单壁碳纳米管（SWNT）和Ti覆盖的单壁氮化硼纳米管（SWBNT）。 H 2分子与裸露的SWBNT外表面的相互作用通常非常弱，可以通过Ti原子官能化来显着增强。吸附在SWBNT上的每个Ti原子最多可以结合四个H2分子，其平均结合能适合于室温存储。尽管SW原子上Be原子的取代过程是吸热的，但被取代的Be会增强管表面与H2之间的相互作用，以保留一个H2分子。 ©2007美国物理学会。

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Durgun, E.; Jang, Y.-R.; Ciraci, S.;
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年度 2007
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1. Hydrogen storage capacity of Ti-doped boron-nitride and B/Be-substituted carbon nanotubes [J] . E. Durgun, Y.-R. Jang, S. Ciraci Physical review . 2007,第7期

机译：掺钛氮化硼和B / Be取代碳纳米管的储氢能力
2. Very high hydrogen storage capacity of al-adsorbed single-walled carbon nanotube (SWCNT): Multi-layered structure of hydrogen molecules [J] . Wang H., Cheng X., Zhang H., International Journal of Modern Physics, B. Condensed Matter Physics, Statistical Physics, Applied Physics . 2013,第14期

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4. First principles DFT investigation Of Yttrium-decorated Boron-Nitride Nanotube: Electronic Structure and Hydrogen Storage [C] . Richa Naja Jain, Brahmananda Chakraborty, Lavanya M. Ramaniah DAE Solid State Physics Symposium . 2015

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Hydrogen storage capacity of Ti-doped boron-nitride and B Be -substituted carbon nanotubes

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