Modeling hydrogen storage in boron-substituted graphene decorated with potassium metal atoms

Tokarev, Andrey; Bessarabov, Dmitri G.; Avdeenkov, Alexander V.; Langmi, Henrietta

Modeling hydrogen storage in boron-substituted graphene decorated with potassium metal atoms

Date

2015

Authors

Tokarev, Andrey

Bessarabov, Dmitri G.

Avdeenkov, Alexander V.

Langmi, Henrietta

Researcher ID

24851396 - Tokarev, Andrey
22730389 - Bessarabov, Dmitri Georgievich

Publisher

Wiley

Abstract

Boron-substituted graphene decorated with potassium metal atoms was considered as a novel material for hydrogen storage. Density functional theory calculations were used to model key properties of the material, such as geometry, hydrogen packing, and hydrogen adsorption energy. We found that the new material has extremely high hydrogen storage capacity: 22.5wt%. It is explained by high-density packing of hydrogen molecules into hydrogen layers with specific geometry. In turn, such geometry is determined by the composition and topology of the material

Keywords

Hydrogen storage, physical adsorption, density functional theory

Citation

Tokarev, A. et al. 2015. Modeling hydrogen storage in boron-substituted graphene decorated with potassium metal atoms. International journal of energy research, 39(4):524-528. [http://onlinelibrary.wiley.com/doi/10.1002/er.v39.4/issuetoc]

URI

http://hdl.handle.net/10394/18268
http://dx.doi.org/10.1002/er.3268
http://onlinelibrary.wiley.com/doi/10.1002/er.3268/full

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Faculty of Engineering

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Modeling hydrogen storage in boron-substituted graphene decorated with potassium metal atoms

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