Ni-dispersed fullerenes: Hydrogen storage and desorption properties

Weon Ho Shin; Seong Ho Yang; William A. Goddard; Jeung Ku Kang

doi:10.1063/1.2168775

Ni-dispersed fullerenes: Hydrogen storage and desorption properties

Weon Ho Shin
, Seong Ho Yang
, William A. Goddard
, Jeung Ku Kang

Research output: Contribution to journal › Article › peer-review

Abstract

Our study shows that the H2 storage media using Ni-dispersed fullerenes could be viable alternatives to reversible hydrogen storage. It is demonstrated that a single Ni coated on the fullerene surface can store up to three H2 molecules. Consequently, at high Ni coverage, Ni-dispersed fullerenes are considered to be the novel hydrogen storage media capable of storing ∼6.8 wt % H2, thus exceeding the Department of Energy target (6.5 wt %) for automobile applications. Moreover, the H2 desorption activation barrier of 11.8 kcalmol H2 is ideal for many practical hydrogen storage applications.

Original language	English
Article number	053111
Pages (from-to)	1-3
Number of pages	3
Journal	Applied Physics Letters
Volume	88
Issue number	5
DOIs	https://doi.org/10.1063/1.2168775
Publication status	Published - 10 Feb 2006
Externally published	Yes

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title = "Ni-dispersed fullerenes: Hydrogen storage and desorption properties",

abstract = "Our study shows that the H2 storage media using Ni-dispersed fullerenes could be viable alternatives to reversible hydrogen storage. It is demonstrated that a single Ni coated on the fullerene surface can store up to three H2 molecules. Consequently, at high Ni coverage, Ni-dispersed fullerenes are considered to be the novel hydrogen storage media capable of storing ∼6.8 wt \% H2, thus exceeding the Department of Energy target (6.5 wt \%) for automobile applications. Moreover, the H2 desorption activation barrier of 11.8 kcalmol H2 is ideal for many practical hydrogen storage applications.",

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T2 - Hydrogen storage and desorption properties

AU - Shin, Weon Ho

AU - Yang, Seong Ho

AU - Goddard, William A.

AU - Kang, Jeung Ku

PY - 2006/2/10

Y1 - 2006/2/10

N2 - Our study shows that the H2 storage media using Ni-dispersed fullerenes could be viable alternatives to reversible hydrogen storage. It is demonstrated that a single Ni coated on the fullerene surface can store up to three H2 molecules. Consequently, at high Ni coverage, Ni-dispersed fullerenes are considered to be the novel hydrogen storage media capable of storing ∼6.8 wt % H2, thus exceeding the Department of Energy target (6.5 wt %) for automobile applications. Moreover, the H2 desorption activation barrier of 11.8 kcalmol H2 is ideal for many practical hydrogen storage applications.

AB - Our study shows that the H2 storage media using Ni-dispersed fullerenes could be viable alternatives to reversible hydrogen storage. It is demonstrated that a single Ni coated on the fullerene surface can store up to three H2 molecules. Consequently, at high Ni coverage, Ni-dispersed fullerenes are considered to be the novel hydrogen storage media capable of storing ∼6.8 wt % H2, thus exceeding the Department of Energy target (6.5 wt %) for automobile applications. Moreover, the H2 desorption activation barrier of 11.8 kcalmol H2 is ideal for many practical hydrogen storage applications.

UR - https://www.scopus.com/pages/publications/31944433302

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ER -

Ni-dispersed fullerenes: Hydrogen storage and desorption properties

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