Issue 3, 2024

Analysing the stability of He-filled hydrates: how many He atoms fit in the sII crystal?

Abstract

Clathrate hydrates have the ability to encapsulate atoms and molecules within their cavities, and thus they could be potentially large storage capacity materials. The present work studies the multiple cage occupancy effects in the recently discovered He@sII crystal. On the basis of previous theoretical and experimental findings, the stability of He(1/1)@sII, He(1/4)@sII and He(2/4)@sII crystals was analysed in terms of structural, mechanical and energetic properties. For this purpose, first-principles DFT/DFT-D computations were performed by using both semi-local and non-local functionals, not only to elucidate which configuration is the most energetically favoured, but also to scrutinize the relevance of the long-range dispersion interactions in these kinds of compounds. We have encountered that dispersion interactions play a fundamental role in describing the underlying interactions, and different tendencies were observed depending on the choice of the functional. We found that PW86PBE-XDM shows the best performance, while the non-local functionals tested here were not able to correctly account for them. The present results reveal that the most stable configuration is the one presenting singly occupied D cages and tetrahedrally occupied H cages (He(1/4)@sII) in line with the experimental observation.

Graphical abstract: Analysing the stability of He-filled hydrates: how many He atoms fit in the sII crystal?

Supplementary files

Article information

Article type
Paper
Submitted
07 noy 2023
Accepted
27 noy 2023
First published
01 dek 2023
This article is Open Access
Creative Commons BY-NC license

Phys. Chem. Chem. Phys., 2024,26, 2519-2528

Analysing the stability of He-filled hydrates: how many He atoms fit in the sII crystal?

R. Yanes-Rodríguez and R. Prosmiti, Phys. Chem. Chem. Phys., 2024, 26, 2519 DOI: 10.1039/D3CP05410A

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