Issue 2, 2020

Li-decorated carbyne for hydrogen storage: charge induced polarization and van't Hoff hydrogen desorption temperature

Abstract

We have studied carbyne as a promising hydrogen storage material. Density functional theory simulations with vdW corrections have been used to investigate lithium sorption on carbyne and the interaction of pristine and Li-functionalized carbon chains with molecular hydrogen. We showed that Li adatoms at small concentrations stay atomically dispersed on carbyne, donating 0.9e to the chain. Moreover, in the presence of Li, hydrogen adsorption energy increases by more than 5 times in comparison with pristine carbyne. Overall, up to three hydrogen molecules per Li adatom have an adsorption energy close to the range of 200–600 meV per H2, which is necessary for effective sorption/desorption cycles. The resulting theoretical uptake (7.1 wt%) is higher than the U.S. Department of Energy's ultimate goal (6.5 wt%). The calculated van't Hoff desorption temperatures exceed considerably the boiling point of liquid nitrogen. Our results confirm the potential of Li-decorated carbyne for hydrogen storage.

Graphical abstract: Li-decorated carbyne for hydrogen storage: charge induced polarization and van't Hoff hydrogen desorption temperature

Supplementary files

Article information

Article type
Paper
Submitted
25 Aug 2019
Accepted
26 Oct 2019
First published
28 Oct 2019

Sustainable Energy Fuels, 2020,4, 691-699

Li-decorated carbyne for hydrogen storage: charge induced polarization and van't Hoff hydrogen desorption temperature

E. Anikina, A. Banerjee, V. Beskachko and R. Ahuja, Sustainable Energy Fuels, 2020, 4, 691 DOI: 10.1039/C9SE00706G

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