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Hydrogen Storage by Polylithiated Molecules and Nanostructures

Materials Science 2009-05-18 v1
Authors: Süleyman Er , Gilles A. de Wijs , Geert Brocks
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Abstract

We study polylithiated molecules as building blocks for hydrogen storage materials, using first-principles calculations. \clifour\clifour and \olitwo\olitwo bind 12 and 10 hydrogen molecules, respectively, with an average binding energy of 0.10 and 0.13 eV, leading to gravimetric densities of 37.8 and 40.3 weight % H. Bonding between Li and C or O is strongly polar and \hyd\hyd molecules attach to the partially charged Li atoms without dissociating, which is favorable for (de)hydrogenation kinetics. CLin_n and OLim_m molecules can be chemically bonded to graphene sheets to hinder the aggregation of such molecules. In particular B or Be doped graphene strongly bind the molecules without seriously affecting the hydrogen binding energy. It still leads to a hydrogen storage capacity in the range 5-8.5 wt % H.

Keywords

hydrogen storage and hydrides

Cite

@article{arxiv.0902.2339,
  title  = {Hydrogen Storage by Polylithiated Molecules and Nanostructures},
  author = {Süleyman Er and Gilles A. de Wijs and Geert Brocks},
  journal= {arXiv preprint arXiv:0902.2339},
  year   = {2009}
}

Comments

15 pages, 3 tables, and 5 figures

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