A robust electrocatalytic activity and stability of Pd electrocatalyst derived from carbon coating

By Yu, Xinxin; Luo, Fang; Zhang, Quan; Guo, Long; Hu, Hao; Yang, Zehui; Grigoriev, Sergey A.; Cheng, Hansong
Published in International Journal of Hydrogen Energy 2019

Abstract

Palladium (Pd) as an efficient anodic catalyst has been extensively investigated in direct formic acid fuel cells (DFAFCs); while, Pd catalyst is electrochemically unstable in acidic electrolyte resulting in low stability retarding the widespread application of DFAFCs. In this study, a new method is invented to prevent the Pd nanoparticles from rapid dissolution by carbon layer originated from the carbonization of glucose. Ascribing to the presence of carbon layer, Pd electrocatalyst demonstrates much higher stability in comparison with Pd electrocatalyst without carbon layer in the course of stability tests. Robust electrocatalytic activities toward formic acid and methanol/ethanol oxidation are observed for carbon-stabilized Pd electrocatalyst resulted from the higher content of metallic Pd atoms coming from the carbonization process, in which Pd (II) species are further reduced. Moreover, the fuel cell performance of carbon-stabilized Pd electrocatalyst reaches 90 mW cmPd?2 measured with 1 M formic acid; while, power density of bare Pd electrocatalyst is only 74 mW cmPd?2. This work highlights that carbon layer carbonized from glucose improves not only the stability of Pd electrocatalyst, but also the electrocatalytic activity.

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