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A study of the modification of glassy carbon and edge and basal plane highly oriented pyrolytic graphite electrodes modified with anthraquinone using diazonium coupling and solid phase synthesis and their use for oxygen reduction

A study of the modification of glassy carbon and edge and basal plane highly oriented pyrolytic graphite electrodes modified with anthraquinone using diazonium coupling and solid phase synthesis and their use for oxygen reduction
A study of the modification of glassy carbon and edge and basal plane highly oriented pyrolytic graphite electrodes modified with anthraquinone using diazonium coupling and solid phase synthesis and their use for oxygen reduction
The oxygen reduction reaction was investigated at bare and anthraquinone modified glassy carbon and edge and basal plane highly oriented pyrolytic graphite electrodes. Anthraquinone was attached to the graphite electrodes through a –NHCH2C6H4– linker using electrochemical reduction of the corresponding Boc (Boc is tert-butyloxycarbonyl) protected diazonium salt, removal of the Boc protection and subsequent solid phase coupling to anthraquinone-2-carboxylic acid. In each case electrochemical reduction of the Boc protected diazonium salt leads to blocking of the surface. Following deprotection and coupling the apparent surface coverage of anthraquinone is found to be greatest on the edge plane electrode and lowest on the basal plane with the glassy carbon surface intermediate between the two. The immobilized anthraquinone is stable at the surface and catalyzes the reduction of oxygen to hydrogen peroxide
anthraquinone, diazonium coupling, glassy carbon, hopg, oxygen reduction
1572-6657
25-32
Kocak, Izzet
1064049f-f955-4c2a-8bc4-ccffbbdeb5e6
Ghanem, Mohamed A.
cef6c814-2709-4a2f-a052-06d28d0ba04c
Al-Mayouf, Abdullah
d40ac782-8923-42e7-bfa3-cb816e738080
Alhoshan, Mansour
ac5b2e9d-aee8-4ec4-a183-ba2aa1699fd7
Bartlett, Philip N.
d99446db-a59d-4f89-96eb-f64b5d8bb075
Kocak, Izzet
1064049f-f955-4c2a-8bc4-ccffbbdeb5e6
Ghanem, Mohamed A.
cef6c814-2709-4a2f-a052-06d28d0ba04c
Al-Mayouf, Abdullah
d40ac782-8923-42e7-bfa3-cb816e738080
Alhoshan, Mansour
ac5b2e9d-aee8-4ec4-a183-ba2aa1699fd7
Bartlett, Philip N.
d99446db-a59d-4f89-96eb-f64b5d8bb075

Kocak, Izzet, Ghanem, Mohamed A., Al-Mayouf, Abdullah, Alhoshan, Mansour and Bartlett, Philip N. (2013) A study of the modification of glassy carbon and edge and basal plane highly oriented pyrolytic graphite electrodes modified with anthraquinone using diazonium coupling and solid phase synthesis and their use for oxygen reduction. Journal of Electroanalytical Chemistry, 706, 25-32. (doi:10.1016/j.jelechem.2013.07.035).

Record type: Article

Abstract

The oxygen reduction reaction was investigated at bare and anthraquinone modified glassy carbon and edge and basal plane highly oriented pyrolytic graphite electrodes. Anthraquinone was attached to the graphite electrodes through a –NHCH2C6H4– linker using electrochemical reduction of the corresponding Boc (Boc is tert-butyloxycarbonyl) protected diazonium salt, removal of the Boc protection and subsequent solid phase coupling to anthraquinone-2-carboxylic acid. In each case electrochemical reduction of the Boc protected diazonium salt leads to blocking of the surface. Following deprotection and coupling the apparent surface coverage of anthraquinone is found to be greatest on the edge plane electrode and lowest on the basal plane with the glassy carbon surface intermediate between the two. The immobilized anthraquinone is stable at the surface and catalyzes the reduction of oxygen to hydrogen peroxide

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Accepted/In Press date: 19 June 2013
Published date: October 2013
Keywords: anthraquinone, diazonium coupling, glassy carbon, hopg, oxygen reduction
Organisations: Electrochemistry

Identifiers

Local EPrints ID: 376452
URI: http://eprints.soton.ac.uk/id/eprint/376452
DOI: doi:10.1016/j.jelechem.2013.07.035
ISSN: 1572-6657
PURE UUID: 5dff0144-11db-4031-a3c5-2bd04e97a135
ORCID for Philip N. Bartlett: ORCID iD orcid.org/0000-0002-7300-6900

Catalogue record

Date deposited: 28 Apr 2015 13:40
Last modified: 15 Mar 2024 02:44

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Contributors

Author: Izzet Kocak
Author: Mohamed A. Ghanem
Author: Abdullah Al-Mayouf
Author: Mansour Alhoshan
Author: Philip N. Bartlett ORCID iD

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