Rhodium-decorated palladium nanocubes supported on Ni(OH)2 nanosheets/C for enhanced ethanol oxidation
Rhodium-decorated palladium nanocubes supported on Ni(OH)2 nanosheets/C for enhanced ethanol oxidation
This study investigates the improvement of Palladium (Pd)-based nanocatalysts for ethanol oxidation in alkaline solutions, a process often hindered by the poisoning of the catalyst’s surface. We synthesise Pd nanocubes and Rhodium (Rh)-decorated Pd nanocubes, both supported by a composite of nickel hydroxide nanosheets and carbon (Ni(OH)2/C). The developed Pd nanocatalysts possess a nanocubic morphology with smaller sizes compared to Pd/C, alongside additional nanostructures like nanorods X-ray absorption near-edge structure and extended X-ray absorption fine structure analyses suggest that Rh decoration on Pd nanocubes prevents Pd oxidation, with Rh itself being oxidised. The electrocatalytic performance of the Rh/Pd/Ni(OH)2/C hybrid catalyst displays a notable enhancement, attributed to the combined effects of the exposed Pd (1 0 0) crystal surfaces, the addition of oxygenated species through the Ni(OH)2 component, and the deliberate addition of Rh. Comparative assessments reveal that this composite surpasses Pd/C and Pd/C nanocubes, achieving specific activities that are approximately 11.6 and 3.5 times greater, respectively. Electrochemical Impedance Spectroscopy data and chronoamperometric studies confirm superior ethanol oxidation efficiency and improved catalytic stability. These findings highlight the utility of Rh/Pd/Ni(OH)2/C nanocubes in direct ethanol fuel cells, providing promising pathways for enhancing fuel cell technologies.
(1 0 0) facets, Direct Alcohol Fuel Cells, Electrocatalyst, Pd nanocubes, Rhodium
Almeida, Caio Vinícius da Silva
790df98e-0976-4237-887c-51ffbb0416d8
Sherwin, Connor
b4e01340-ac4d-46a3-8904-ec306c903761
Russell, Andrea E.
b6b7c748-efc1-4d5d-8a7a-8e4b69396169
Eguiluz, Katlin I.B.
59d40318-d101-44e0-b00c-b8f30aa1baf4
Salazar-Banda, Giancarlo R.
80800367-cb82-42ad-8137-83e98dbf4ecb
21 June 2024
Almeida, Caio Vinícius da Silva
790df98e-0976-4237-887c-51ffbb0416d8
Sherwin, Connor
b4e01340-ac4d-46a3-8904-ec306c903761
Russell, Andrea E.
b6b7c748-efc1-4d5d-8a7a-8e4b69396169
Eguiluz, Katlin I.B.
59d40318-d101-44e0-b00c-b8f30aa1baf4
Salazar-Banda, Giancarlo R.
80800367-cb82-42ad-8137-83e98dbf4ecb
Almeida, Caio Vinícius da Silva, Sherwin, Connor, Russell, Andrea E., Eguiluz, Katlin I.B. and Salazar-Banda, Giancarlo R.
(2024)
Rhodium-decorated palladium nanocubes supported on Ni(OH)2 nanosheets/C for enhanced ethanol oxidation.
Journal of Electroanalytical Chemistry, 967, [118437].
(doi:10.1016/j.jelechem.2024.118437).
Abstract
This study investigates the improvement of Palladium (Pd)-based nanocatalysts for ethanol oxidation in alkaline solutions, a process often hindered by the poisoning of the catalyst’s surface. We synthesise Pd nanocubes and Rhodium (Rh)-decorated Pd nanocubes, both supported by a composite of nickel hydroxide nanosheets and carbon (Ni(OH)2/C). The developed Pd nanocatalysts possess a nanocubic morphology with smaller sizes compared to Pd/C, alongside additional nanostructures like nanorods X-ray absorption near-edge structure and extended X-ray absorption fine structure analyses suggest that Rh decoration on Pd nanocubes prevents Pd oxidation, with Rh itself being oxidised. The electrocatalytic performance of the Rh/Pd/Ni(OH)2/C hybrid catalyst displays a notable enhancement, attributed to the combined effects of the exposed Pd (1 0 0) crystal surfaces, the addition of oxygenated species through the Ni(OH)2 component, and the deliberate addition of Rh. Comparative assessments reveal that this composite surpasses Pd/C and Pd/C nanocubes, achieving specific activities that are approximately 11.6 and 3.5 times greater, respectively. Electrochemical Impedance Spectroscopy data and chronoamperometric studies confirm superior ethanol oxidation efficiency and improved catalytic stability. These findings highlight the utility of Rh/Pd/Ni(OH)2/C nanocubes in direct ethanol fuel cells, providing promising pathways for enhancing fuel cell technologies.
Text
Final Paper_Pd Nanocubes
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Restricted to Repository staff only until 21 June 2026.
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Text
Final Paper_Pd Nanocubes
- Accepted Manuscript
Restricted to Repository staff only until 21 June 2026.
Request a copy
More information
Accepted/In Press date: 11 June 2024
e-pub ahead of print date: 12 June 2024
Published date: 21 June 2024
Keywords:
(1 0 0) facets, Direct Alcohol Fuel Cells, Electrocatalyst, Pd nanocubes, Rhodium
Identifiers
Local EPrints ID: 492110
URI: http://eprints.soton.ac.uk/id/eprint/492110
ISSN: 1572-6657
PURE UUID: 19c5bdc5-e963-489f-aaa8-0735ba4d4389
Catalogue record
Date deposited: 16 Jul 2024 17:09
Last modified: 19 Jul 2024 02:00
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Contributors
Author:
Caio Vinícius da Silva Almeida
Author:
Connor Sherwin
Author:
Katlin I.B. Eguiluz
Author:
Giancarlo R. Salazar-Banda
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