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Literature DB >> 16486479

Nondissociative adsorption of H2 molecules in light-element-doped fullerenes.

Yong-Hyun Kim¹, Yufeng Zhao, Andrew Williamson, Michael J Heben, S B Zhang.

Abstract

First-principles density functional and quantum Monte Carlo calculations of light-element doped fullerenes reveal significantly enhanced molecular H2 binding for substitutional B and Be. A nonclassical three-center binding mechanism between the dopant and H2 is identified, which is maximized when the empty p(z) orbital of the dopant is highly localized. The calculated binding energies of 0.2-0.6 eV/H2 is suited for reversible hydrogen storage at near standard conditions. The calculated H2 sorption process is barrier-less, which could also significantly simplify the kinetics for the storage.

Entities: Chemical

Year: 2006 PMID： 16486479 DOI： 10.1103/PhysRevLett.96.016102

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

7 in total

Nondissociative adsorption of H2 molecules in light-element-doped fullerenes.

1. Progress on first-principles-based materials design for hydrogen storage.

2. Theoretical study on aluminum carbide endohedral fullerene-Al4C@C80.

3. Sensing behavior of Al-rich AlN nanotube toward hydrogen cyanide.

4. A WS₂ Case Theoretical Study: Hydrogen Storage Performance Improved by Phase Altering.

5. A study on hydrogen storage performance of Ti decorated vacancies graphene structure on the first principle.

6. Three-dimensional metal-intercalated covalent organic frameworks for near-ambient energy storage.

7. Lithium-Decorated Borospherene B₄₀: A Promising Hydrogen Storage Medium.