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New trends in the hydrogen energy storage potentials of (8,8) SWCNT and SWBNNT using optical adsorption spectra analysis: a DFT study.

We have investigated the hydrogen energy storage potentials of (8, 8) single-walled carbon nanotubes (SWCNTs) and (8, 8) single-walled boron nitride nanotubes (SWBNNTs) using density functional theory. Calculations of the electronic properties of the studied systems were performed using the Perdew,...

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Main Authors: Itas, Yahaya Saadu, Suleiman, Abdussalam Balarabe, Ndikilar, Chifu E., Lawal, Abdullahi, Razali, Razif, Khandaker, Mayeen Uddin, Kolo, Mohammed, Tata, Salisu, Idris, Abubakr M.
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Published: Springer 2023
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QC Physics
Online Access:http://eprints.utm.my/106422/
http://dx.doi.org/10.1007/s10825-023-02093-x
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spelling my.utm.1064222024-07-08T06:54:23Z http://eprints.utm.my/106422/ New trends in the hydrogen energy storage potentials of (8,8) SWCNT and SWBNNT using optical adsorption spectra analysis: a DFT study. Itas, Yahaya Saadu Suleiman, Abdussalam Balarabe Ndikilar, Chifu E. Lawal, Abdullahi Razali, Razif Khandaker, Mayeen Uddin Kolo, Mohammed Tata, Salisu Idris, Abubakr M. QC Physics We have investigated the hydrogen energy storage potentials of (8, 8) single-walled carbon nanotubes (SWCNTs) and (8, 8) single-walled boron nitride nanotubes (SWBNNTs) using density functional theory. Calculations of the electronic properties of the studied systems were performed using the Perdew, Burke and Ernzerhof (PBE) exchange correlation function of the generalized gradient approximation. The optical adsorption response of the pure and hydrogen-adsorbed systems was determined within G0W0 approximations with both RPA and BSE. From the obtained results, it was found that both (8, 8) SWBNNT and SWCNT were stable when the hydrogen molecule was 8.72 m away from the adsorption surface. SWBNNT was found to show stronger adsorption from 5 to 15 eV, which is in the UV range. On the other hand, SWCNT adsorbs hydrogen in the 0–5 eV which falls in the UV–Vis range, with higher adsorption recorded from 0 to 2.4 eV, which corresponds to the visible range. Although both systems adsorb hydrogen, (8, 8) SWCNT is reported to be better than (8, 8) SWBNNT due to its ability to adsorb in the visible region of the electromagnetic spectrum. Therefore, SWCNT is regarded as a better candidate for hydrogen energy storage under ambient conditions. Springer 2023-12 Article PeerReviewed Itas, Yahaya Saadu and Suleiman, Abdussalam Balarabe and Ndikilar, Chifu E. and Lawal, Abdullahi and Razali, Razif and Khandaker, Mayeen Uddin and Kolo, Mohammed and Tata, Salisu and Idris, Abubakr M. (2023) New trends in the hydrogen energy storage potentials of (8,8) SWCNT and SWBNNT using optical adsorption spectra analysis: a DFT study. Journal of Computational Electronics, 22 (6). pp. 1595-1605. ISSN 1569-8025 http://dx.doi.org/10.1007/s10825-023-02093-x DOI: 10.1007/s10825-023-02093-x
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic QC Physics
spellingShingle QC Physics
Itas, Yahaya Saadu
Suleiman, Abdussalam Balarabe
Ndikilar, Chifu E.
Lawal, Abdullahi
Razali, Razif
Khandaker, Mayeen Uddin
Kolo, Mohammed
Tata, Salisu
Idris, Abubakr M.
New trends in the hydrogen energy storage potentials of (8,8) SWCNT and SWBNNT using optical adsorption spectra analysis: a DFT study.
description We have investigated the hydrogen energy storage potentials of (8, 8) single-walled carbon nanotubes (SWCNTs) and (8, 8) single-walled boron nitride nanotubes (SWBNNTs) using density functional theory. Calculations of the electronic properties of the studied systems were performed using the Perdew, Burke and Ernzerhof (PBE) exchange correlation function of the generalized gradient approximation. The optical adsorption response of the pure and hydrogen-adsorbed systems was determined within G0W0 approximations with both RPA and BSE. From the obtained results, it was found that both (8, 8) SWBNNT and SWCNT were stable when the hydrogen molecule was 8.72 m away from the adsorption surface. SWBNNT was found to show stronger adsorption from 5 to 15 eV, which is in the UV range. On the other hand, SWCNT adsorbs hydrogen in the 0–5 eV which falls in the UV–Vis range, with higher adsorption recorded from 0 to 2.4 eV, which corresponds to the visible range. Although both systems adsorb hydrogen, (8, 8) SWCNT is reported to be better than (8, 8) SWBNNT due to its ability to adsorb in the visible region of the electromagnetic spectrum. Therefore, SWCNT is regarded as a better candidate for hydrogen energy storage under ambient conditions.
format Article
author Itas, Yahaya Saadu
Suleiman, Abdussalam Balarabe
Ndikilar, Chifu E.
Lawal, Abdullahi
Razali, Razif
Khandaker, Mayeen Uddin
Kolo, Mohammed
Tata, Salisu
Idris, Abubakr M.
author_facet Itas, Yahaya Saadu
Suleiman, Abdussalam Balarabe
Ndikilar, Chifu E.
Lawal, Abdullahi
Razali, Razif
Khandaker, Mayeen Uddin
Kolo, Mohammed
Tata, Salisu
Idris, Abubakr M.
author_sort Itas, Yahaya Saadu
title New trends in the hydrogen energy storage potentials of (8,8) SWCNT and SWBNNT using optical adsorption spectra analysis: a DFT study.
title_short New trends in the hydrogen energy storage potentials of (8,8) SWCNT and SWBNNT using optical adsorption spectra analysis: a DFT study.
title_full New trends in the hydrogen energy storage potentials of (8,8) SWCNT and SWBNNT using optical adsorption spectra analysis: a DFT study.
title_fullStr New trends in the hydrogen energy storage potentials of (8,8) SWCNT and SWBNNT using optical adsorption spectra analysis: a DFT study.
title_full_unstemmed New trends in the hydrogen energy storage potentials of (8,8) SWCNT and SWBNNT using optical adsorption spectra analysis: a DFT study.
title_sort new trends in the hydrogen energy storage potentials of (8,8) swcnt and swbnnt using optical adsorption spectra analysis: a dft study.
publisher Springer
publishDate 2023
url http://eprints.utm.my/106422/
http://dx.doi.org/10.1007/s10825-023-02093-x
_version_ 1804065500678848512
score 13.188404

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