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Long-term stability of Au nanoparticle-anchored porous boron-doped diamond hybrid electrode for enhanced dopamine detection

Long-term stability of Au nanoparticle-anchored porous boron-doped diamond hybrid electrode for enhanced dopamine detection
Long-term stability of Au nanoparticle-anchored porous boron-doped diamond hybrid electrode for enhanced dopamine detection

A porous boron-doped diamond (pBDD) was made for immobilizing gold nanoparticles on BDD facets by a special process, wherein methods of magnetron sputtering and thermal catalytic treatment were utilized. Au nanoparticles are seated in the pores of pBDD facets and could be more stable during electrochemical tests. This hybrid structure significantly improved the electrochemical properties due to the introduction of Au nanoparticles and pores, which could increase the specific surface area. The cyclic voltammetry oxidation peak current of the Au/pBDD electrode decreased with an average daily loss of 0.02 μA and maintained approximately 90.1% of its initial value after detecting dopamine once per two days for 30 days, showing an excellent long-term electrochemical stability. In addition, the Au/pBDD electrode exhibited excellent sensitivity for the detection of DA, and the limit of detection was 0.06 μM in a linear concentration range of 0.1 μM–1 mM. This work indicates that the Au/pBDD is an appropriate material for detecting DA in a long-term tests.

Au nanoparticles, Dopamine, Electrochemistry, Long-term stability, Porous boron-doped diamond
0013-4686
84-91
Mei, Xueru
b6811f49-fdca-468e-8b07-e47156a43d95
Wei, Qiuping
707ad8e3-bb70-49b8-9d0c-869d2aa5983f
Long, Hangyu
03c97efe-1c4a-4719-a343-c8bc9cbd705c
Yu, Zhiming
62dbd3d6-e3ed-4f90-be95-c5851620d625
Deng, Zejun
bac2fddc-f240-4d73-98d7-f1a054e0d45b
Meng, Lingcong
8de7a0cb-c6aa-4dfd-94f5-bcdae5105a56
Wang, Jian
010afd88-adf6-442d-8329-64912c031eed
Luo, Jingting
402dc9e0-81d7-49cc-b697-e3fbb2e8f760
Lin, Cheng Te
bd5be3af-e962-4e86-8a7f-c564ecf3fd9e
Ma, Li
1ba2adc7-e4d8-4a7b-8cfd-10d9ff41564b
Zheng, Kuangzhi
284722c4-5089-4a7c-aa37-da5ed54859a0
Hu, Naixiu
12852f56-4bb9-4cfd-a973-4b4677b838bc
Mei, Xueru
b6811f49-fdca-468e-8b07-e47156a43d95
Wei, Qiuping
707ad8e3-bb70-49b8-9d0c-869d2aa5983f
Long, Hangyu
03c97efe-1c4a-4719-a343-c8bc9cbd705c
Yu, Zhiming
62dbd3d6-e3ed-4f90-be95-c5851620d625
Deng, Zejun
bac2fddc-f240-4d73-98d7-f1a054e0d45b
Meng, Lingcong
8de7a0cb-c6aa-4dfd-94f5-bcdae5105a56
Wang, Jian
010afd88-adf6-442d-8329-64912c031eed
Luo, Jingting
402dc9e0-81d7-49cc-b697-e3fbb2e8f760
Lin, Cheng Te
bd5be3af-e962-4e86-8a7f-c564ecf3fd9e
Ma, Li
1ba2adc7-e4d8-4a7b-8cfd-10d9ff41564b
Zheng, Kuangzhi
284722c4-5089-4a7c-aa37-da5ed54859a0
Hu, Naixiu
12852f56-4bb9-4cfd-a973-4b4677b838bc

Mei, Xueru, Wei, Qiuping, Long, Hangyu, Yu, Zhiming, Deng, Zejun, Meng, Lingcong, Wang, Jian, Luo, Jingting, Lin, Cheng Te, Ma, Li, Zheng, Kuangzhi and Hu, Naixiu (2018) Long-term stability of Au nanoparticle-anchored porous boron-doped diamond hybrid electrode for enhanced dopamine detection. Electrochimica Acta, 271, 84-91. (doi:10.1016/j.electacta.2018.03.133).

Record type: Article

Abstract

A porous boron-doped diamond (pBDD) was made for immobilizing gold nanoparticles on BDD facets by a special process, wherein methods of magnetron sputtering and thermal catalytic treatment were utilized. Au nanoparticles are seated in the pores of pBDD facets and could be more stable during electrochemical tests. This hybrid structure significantly improved the electrochemical properties due to the introduction of Au nanoparticles and pores, which could increase the specific surface area. The cyclic voltammetry oxidation peak current of the Au/pBDD electrode decreased with an average daily loss of 0.02 μA and maintained approximately 90.1% of its initial value after detecting dopamine once per two days for 30 days, showing an excellent long-term electrochemical stability. In addition, the Au/pBDD electrode exhibited excellent sensitivity for the detection of DA, and the limit of detection was 0.06 μM in a linear concentration range of 0.1 μM–1 mM. This work indicates that the Au/pBDD is an appropriate material for detecting DA in a long-term tests.

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More information

Accepted/In Press date: 22 March 2018
e-pub ahead of print date: 23 March 2018
Published date: 1 May 2018
Keywords: Au nanoparticles, Dopamine, Electrochemistry, Long-term stability, Porous boron-doped diamond

Identifiers

Local EPrints ID: 422423
URI: http://eprints.soton.ac.uk/id/eprint/422423
DOI: doi:10.1016/j.electacta.2018.03.133
ISSN: 0013-4686
PURE UUID: c33b94e4-afaf-411b-a677-48c96433d7db
ORCID for Lingcong Meng: ORCID iD orcid.org/0000-0002-3995-3584

Catalogue record

Date deposited: 23 Jul 2018 16:31
Last modified: 17 Mar 2024 12:01

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Contributors

Author: Xueru Mei
Author: Qiuping Wei
Author: Hangyu Long
Author: Zhiming Yu
Author: Zejun Deng
Author: Lingcong Meng ORCID iD
Author: Jian Wang
Author: Jingting Luo
Author: Cheng Te Lin
Author: Li Ma
Author: Kuangzhi Zheng
Author: Naixiu Hu

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