2020年5月26日，我院研究生孙标、教师卞婷（通讯）和苏石川（通讯）等的“PtRhCu ternary alloy nanodendrites with enhanced catalytic activity and durability toward methanol electro-oxidation”研究成果在《Materials Chemistry and Physics》上发表。

2020年5月26日，我院研究生孙标、教师卞婷（通讯）和苏石川（通讯）等的“PtRhCu ternary alloy nanodendrites with enhanced catalytic activity and durability toward methanol electro-oxidation”研究成果在《Materials Chemistry and Physics》上发表。

论文简介如下：

   Despite the great progress has been made in the research of Pt-based catalysts toward methanol oxidation reaction (MOR), it is still remaining a great challenge for direct methanol fuel cells (DMFCs) to simultaneously satisfy both excellent activity and good durability. Herein, we report a facile one-pot approach for the successful fabrication of PtRhCu ternary alloy nanodendrites. For the methanol oxidation reaction (MOR), the electrocatalytic performances of the as-prepared nanocrystals can be optimized by simply varying the amount of Rh precursor. The mass activity and specific activity of the as-obtained Pt₄₇Rh₈Cu₄₅ nanodendrites are 2.9 and 5.8 times as high as that of commercial Pt/C catalyst, respectively. Besides, after the accelerated durability test (ADT) for 1500 cycles, the remaining specific activity of Pt₄₇Rh₈Cu₄₅ nanodendrites is 7.8 folds enhancement compared to commercial Pt/C, indicating the excellent stability of the PtRhCu catalyst. We believe that the improved electrochemical activity and stability could be resulted from the highly dendritic nanostructure and the synergetic effect of the three metallic elements in the alloy.

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