Rod-like MnO2 boost Pd/reduced graphene oxide nanocatalyst for ethylene glycol electrooxidation

[Display omitted] Anode catalyst is one of the core components of fuel cell, but its poor catalytic activity, short lifespan, and high price are tricky problems to the commercialization of fuel cell. Herein, a novel rod-like MnO2 decorated reduced graphene oxide (RGO) supported Pd hybrid (Pd/RGO-MnO...

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Veröffentlicht in:	Journal of colloid and interface science 2021-01, Vol.582, p.561-568
Hauptverfasser:	Ren, Fangfang, Chen, Xuanrong, Xing, Rong, Du, Yukou
Format:	Artikel
Sprache:	eng
Schlagworte:	Alkaline medium Electro-oxidation Ethylene glycol Manganese dioxide Pd nanoparticles Reduced graphene oxide
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container_title	Journal of colloid and interface science
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creator	Ren, Fangfang Chen, Xuanrong Xing, Rong Du, Yukou
description	[Display omitted] Anode catalyst is one of the core components of fuel cell, but its poor catalytic activity, short lifespan, and high price are tricky problems to the commercialization of fuel cell. Herein, a novel rod-like MnO2 decorated reduced graphene oxide (RGO) supported Pd hybrid (Pd/RGO-MnO2) has been designed, which manifests more negative onset oxidation potential, higher peak current density, and better long-term stability relative to Pd/RGO and pure Pd catalysts when serving for ethylene glycol electrooxidation. This enhancement may be due to the addition of MnO2, which can effectively promote the adsorption of hydroxyl at a lower potential and produce a strong electronic interaction with Pd, as confirmed by X-ray photoelectron spectroscopy (XPS) technique. In view of its excellent performance and low cost, Pd/RGO-MnO2 is considered to be a potential and effective anode catalyst for DEGFCs.
doi_str_mv	10.1016/j.jcis.2020.07.133
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Herein, a novel rod-like MnO2 decorated reduced graphene oxide (RGO) supported Pd hybrid (Pd/RGO-MnO2) has been designed, which manifests more negative onset oxidation potential, higher peak current density, and better long-term stability relative to Pd/RGO and pure Pd catalysts when serving for ethylene glycol electrooxidation. This enhancement may be due to the addition of MnO2, which can effectively promote the adsorption of hydroxyl at a lower potential and produce a strong electronic interaction with Pd, as confirmed by X-ray photoelectron spectroscopy (XPS) technique. 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subjects	Alkaline medium Electro-oxidation Ethylene glycol Manganese dioxide Pd nanoparticles Reduced graphene oxide
title	Rod-like MnO2 boost Pd/reduced graphene oxide nanocatalyst for ethylene glycol electrooxidation
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