Oxygen reduction reaction mechanism on a phosporus-doped pyrolyzed graphitic Fe/N/C catalyst

Oxygen reduction reaction mechanism on a phosporus-doped pyrolyzed graphitic Fe/N/C catalyst

The oxygen reduction reaction (ORR) mechanism on the active sites of a phosphorus-doped pyrolyzed Fe/N/C catalyst is examined by using density functional theory based calculations. The introduction of the phosphorus dopant creates three initial possible active sites for the ORR i.e., FeN4, C–N and P...

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Main Authors: Hermawan K. Dipojono, .-, Adhitya G. Saputro, ,-, Presio K. Fajrial, ,-, Mohammad K. Agusta, ,-, Fiki T. Akbar, ,-, Febdian Rusydi, ,-, Dedy H. B. Wicaksono, ,-
Format: Article PeerReviewed
Language:English
English
English
English
Published: Royal Society of Chemistry 2019
Subjects:
Q Science
QC1 Physics (General)
Online Access:https://repository.unair.ac.id/113201/3/C03.%20Karya%20Ilmiah.pdf
https://repository.unair.ac.id/113201/4/C03.%20Review%20dan%20Validasi.pdf
https://repository.unair.ac.id/113201/2/C03.%20Similarity_Oxygen%20reduction%20reaction%20mechanism.pdf
https://repository.unair.ac.id/113201/1/C03.%20Submission_oxygen%20reduction%20reaction-submission.pdf
https://repository.unair.ac.id/113201/
https://pubs.rsc.org/en/content/articlelanding/2019/nj/c9nj02118c#!divAbstract
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spelling id-langga.1132012022-01-25T07:40:53Z https://repository.unair.ac.id/113201/ Oxygen reduction reaction mechanism on a phosporus-doped pyrolyzed graphitic Fe/N/C catalyst Hermawan K. Dipojono, .- Adhitya G. Saputro, ,- Presio K. Fajrial, ,- Mohammad K. Agusta, ,- Fiki T. Akbar, ,- Febdian Rusydi, ,- Dedy H. B. Wicaksono, ,- Q Science QC1 Physics (General) The oxygen reduction reaction (ORR) mechanism on the active sites of a phosphorus-doped pyrolyzed Fe/N/C catalyst is examined by using density functional theory based calculations. The introduction of the phosphorus dopant creates three initial possible active sites for the ORR i.e., FeN4, C–N and P-doped sites. In the presence of O2, the P-doped sites become passivated while the rest of the catalyst sites are still functional. The ORR profile for the associative mechanism (the O2 molecule is reduced from its molecular form) on the FeN4 site is practically unaffected by the presence of the neighboring P[double bond, length as m-dash]O site. However, the ORR profile for the dissociative mechanism (the O2 molecule is reduced from its dissociated form) on the FeN4 site is significantly improved as compared to that on the undoped Fe/N/C catalyst system. This phenomenon is mainly induced by the distortion of C–C networks due to the presence of the neighboring FeN4 and P[double bond, length as m-dash]O sites, which leads to the stabilization of the *OH adsorption state on the C atoms next to the FeN4 site. Royal Society of Chemistry 2019 Article PeerReviewed text en https://repository.unair.ac.id/113201/3/C03.%20Karya%20Ilmiah.pdf text en https://repository.unair.ac.id/113201/4/C03.%20Review%20dan%20Validasi.pdf text en https://repository.unair.ac.id/113201/2/C03.%20Similarity_Oxygen%20reduction%20reaction%20mechanism.pdf text en https://repository.unair.ac.id/113201/1/C03.%20Submission_oxygen%20reduction%20reaction-submission.pdf Hermawan K. Dipojono, .- and Adhitya G. Saputro, ,- and Presio K. Fajrial, ,- and Mohammad K. Agusta, ,- and Fiki T. Akbar, ,- and Febdian Rusydi, ,- and Dedy H. B. Wicaksono, ,- (2019) Oxygen reduction reaction mechanism on a phosporus-doped pyrolyzed graphitic Fe/N/C catalyst. New Journal of Chemistry, 28 (2019). pp. 11408-11418. ISSN 11440546, 13699261, 2019,43, 11408-11418 https://pubs.rsc.org/en/content/articlelanding/2019/nj/c9nj02118c#!divAbstract
institution Universitas Airlangga
building Universitas Airlangga Library
continent Asia
country Indonesia
Indonesia
content_provider Universitas Airlangga Library
collection UNAIR Repository
language English
English
English
English
topic Q Science
QC1 Physics (General)
spellingShingle Q Science
QC1 Physics (General)
Hermawan K. Dipojono, .-
Adhitya G. Saputro, ,-
Presio K. Fajrial, ,-
Mohammad K. Agusta, ,-
Fiki T. Akbar, ,-
Febdian Rusydi, ,-
Dedy H. B. Wicaksono, ,-
Oxygen reduction reaction mechanism on a phosporus-doped pyrolyzed graphitic Fe/N/C catalyst
description The oxygen reduction reaction (ORR) mechanism on the active sites of a phosphorus-doped pyrolyzed Fe/N/C catalyst is examined by using density functional theory based calculations. The introduction of the phosphorus dopant creates three initial possible active sites for the ORR i.e., FeN4, C–N and P-doped sites. In the presence of O2, the P-doped sites become passivated while the rest of the catalyst sites are still functional. The ORR profile for the associative mechanism (the O2 molecule is reduced from its molecular form) on the FeN4 site is practically unaffected by the presence of the neighboring P[double bond, length as m-dash]O site. However, the ORR profile for the dissociative mechanism (the O2 molecule is reduced from its dissociated form) on the FeN4 site is significantly improved as compared to that on the undoped Fe/N/C catalyst system. This phenomenon is mainly induced by the distortion of C–C networks due to the presence of the neighboring FeN4 and P[double bond, length as m-dash]O sites, which leads to the stabilization of the *OH adsorption state on the C atoms next to the FeN4 site.
format Article
PeerReviewed
author Hermawan K. Dipojono, .-
Adhitya G. Saputro, ,-
Presio K. Fajrial, ,-
Mohammad K. Agusta, ,-
Fiki T. Akbar, ,-
Febdian Rusydi, ,-
Dedy H. B. Wicaksono, ,-
author_facet Hermawan K. Dipojono, .-
Adhitya G. Saputro, ,-
Presio K. Fajrial, ,-
Mohammad K. Agusta, ,-
Fiki T. Akbar, ,-
Febdian Rusydi, ,-
Dedy H. B. Wicaksono, ,-
author_sort Hermawan K. Dipojono, .-
title Oxygen reduction reaction mechanism on a phosporus-doped pyrolyzed graphitic Fe/N/C catalyst
title_short Oxygen reduction reaction mechanism on a phosporus-doped pyrolyzed graphitic Fe/N/C catalyst
title_full Oxygen reduction reaction mechanism on a phosporus-doped pyrolyzed graphitic Fe/N/C catalyst
title_fullStr Oxygen reduction reaction mechanism on a phosporus-doped pyrolyzed graphitic Fe/N/C catalyst
title_full_unstemmed Oxygen reduction reaction mechanism on a phosporus-doped pyrolyzed graphitic Fe/N/C catalyst
title_sort oxygen reduction reaction mechanism on a phosporus-doped pyrolyzed graphitic fe/n/c catalyst
publisher Royal Society of Chemistry
publishDate 2019
url https://repository.unair.ac.id/113201/3/C03.%20Karya%20Ilmiah.pdf
https://repository.unair.ac.id/113201/4/C03.%20Review%20dan%20Validasi.pdf
https://repository.unair.ac.id/113201/2/C03.%20Similarity_Oxygen%20reduction%20reaction%20mechanism.pdf
https://repository.unair.ac.id/113201/1/C03.%20Submission_oxygen%20reduction%20reaction-submission.pdf
https://repository.unair.ac.id/113201/
https://pubs.rsc.org/en/content/articlelanding/2019/nj/c9nj02118c#!divAbstract
_version_ 1724076670710710272

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