The rotational and translational dynamics of molecular hydrogen physisorbed in activated carbon: A direct probe of microporosity and hydrogen storage performance

P. A. Georgiev, D. K. Ross, P. Albers, A. J. Ramirez-Cuesta

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58 Scopus citations

Abstract

We have measured Incoherent Inelastic Neutron Scattering (IINS) spectra of H2 physisorbed in high purity chemically activated carbon (AC) at different surface coverage and at temperatures near the triple point of bulk hydrogen. Our experimental results and DFT calculations show that at low surface coverage, due to the very low corrugation of the adsorption potential, and in the absence of H2-H2 lateral interactions, the adsorbed molecules are practically free to translate in the 2D plane parallel to the surface. Model calculations show that a complete mixing between the sub-states of the J = 1 manifold occurs on the free surface. The J = 0-to-1 rotational transition should split if the H2 molecule is adsorbed in a slit type pore. Rotational splitting of up to 13 meV is found in the narrowest pores of around 6 Å investigated. The calculated isosteric heat of adsorption for molecules adsorbed on the free surface, at different sites and molecule orientations, range between -39 and -42 meV/H2 at 77 K. In the optimum size slit pores, these numbers double up. Micropore volume of 0.34-0.45 ml/g carbon, and an upper limit of 4 wt% hydrogen storage is anticipated for the investigated material.

Original languageEnglish
Pages (from-to)2724-2738
Number of pages15
JournalCarbon
Volume44
Issue number13
DOIs
StatePublished - Nov 2006
Externally publishedYes

Funding

The authors wish to thank J. Dreyer, C. Goodway, A. Church and J. Bones for the technical support during the experiments. During part of this work P.A.G. has been financially supported by EPSRC grant GR/S42675/01. P.A.G. would also wish to thank the University Salford for the financial and laboratory support. Thanks are also due to the University of Milano where this article was completed.

FundersFunder number
Engineering and Physical Sciences Research CouncilGR/S42675/01

    Keywords

    • Activated carbon
    • Gas storage
    • Neutron scattering

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