Hydrogen storage in aligned carbon nanotubes

Yan Chen; David T. Shaw; X. D. Bai; E. G. Wang; C. Lund; W. M. Lu; D. D.L. Chung

doi:10.1063/1.1341224

Hydrogen storage in aligned carbon nanotubes

Yan Chen
, David T. Shaw
, X. D. Bai
, E. G. Wang
, C. Lund
, W. M. Lu
, D. D.L. Chung

University at Buffalo

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

136 Scopus citations

Abstract

Aligned carbon nanotubes (CNTs) with diameters of 50-100 nm, synthesized by plasma-assisted hot filament chemical vapor deposition, were employed for hydrogen adsorption experiments in their as-prepared and pretreated states. Quadruple mass spectroscopy and thermogravimetric analysis show a hydrogen storage capacity of 5-7 wt% was achieved reproducibly at room temperature under modest pressure (10 atm) for the as-prepared samples. Pretreatments, which include heating the samples to 300°C and removing of the catalyst tips, can increase the hydrogen storage capacity up to 13 wt% and decrease the pressure required for storage. The weight gains were measured after the samples moved out of the hydrogen environment. The release of the adsorbed hydrogen can be achieved by heating the samples up to 300°C.

Original language	English
Pages (from-to)	2128-2130
Number of pages	3
Journal	Applied Physics Letters
Volume	78
Issue number	15
DOIs	https://doi.org/10.1063/1.1341224
State	Published - Apr 9 2001

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10.1063/1.1341224

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title = "Hydrogen storage in aligned carbon nanotubes",

abstract = "Aligned carbon nanotubes (CNTs) with diameters of 50-100 nm, synthesized by plasma-assisted hot filament chemical vapor deposition, were employed for hydrogen adsorption experiments in their as-prepared and pretreated states. Quadruple mass spectroscopy and thermogravimetric analysis show a hydrogen storage capacity of 5-7 wt\% was achieved reproducibly at room temperature under modest pressure (10 atm) for the as-prepared samples. Pretreatments, which include heating the samples to 300°C and removing of the catalyst tips, can increase the hydrogen storage capacity up to 13 wt\% and decrease the pressure required for storage. The weight gains were measured after the samples moved out of the hydrogen environment. The release of the adsorbed hydrogen can be achieved by heating the samples up to 300°C.",

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T1 - Hydrogen storage in aligned carbon nanotubes

AU - Chen, Yan

AU - Shaw, David T.

AU - Bai, X. D.

AU - Wang, E. G.

AU - Lund, C.

AU - Lu, W. M.

AU - Chung, D. D.L.

PY - 2001/4/9

Y1 - 2001/4/9

N2 - Aligned carbon nanotubes (CNTs) with diameters of 50-100 nm, synthesized by plasma-assisted hot filament chemical vapor deposition, were employed for hydrogen adsorption experiments in their as-prepared and pretreated states. Quadruple mass spectroscopy and thermogravimetric analysis show a hydrogen storage capacity of 5-7 wt% was achieved reproducibly at room temperature under modest pressure (10 atm) for the as-prepared samples. Pretreatments, which include heating the samples to 300°C and removing of the catalyst tips, can increase the hydrogen storage capacity up to 13 wt% and decrease the pressure required for storage. The weight gains were measured after the samples moved out of the hydrogen environment. The release of the adsorbed hydrogen can be achieved by heating the samples up to 300°C.

AB - Aligned carbon nanotubes (CNTs) with diameters of 50-100 nm, synthesized by plasma-assisted hot filament chemical vapor deposition, were employed for hydrogen adsorption experiments in their as-prepared and pretreated states. Quadruple mass spectroscopy and thermogravimetric analysis show a hydrogen storage capacity of 5-7 wt% was achieved reproducibly at room temperature under modest pressure (10 atm) for the as-prepared samples. Pretreatments, which include heating the samples to 300°C and removing of the catalyst tips, can increase the hydrogen storage capacity up to 13 wt% and decrease the pressure required for storage. The weight gains were measured after the samples moved out of the hydrogen environment. The release of the adsorbed hydrogen can be achieved by heating the samples up to 300°C.

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DO - 10.1063/1.1341224

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SN - 0003-6951

VL - 78

SP - 2128

EP - 2130

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 15

ER -

Hydrogen storage in aligned carbon nanotubes

Abstract

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