An all-metallic nanovesicle for hydrogen oxidation
Juntao Zhang, Lujie Jin, Hao Sun, Xiaozhi Liu, Yujin Ji, Youyong Li, Wei Liu, Dong Su, Xuerui Liu, Zhongbin Zhuang, Zhiwei Hu, Qi Shao, Xiaoqing Huang

TL;DR
Scientists created all-metal nanovesicles inspired by biological structures, which show high efficiency in hydrogen oxidation reactions.
Contribution
A novel biomimetic strategy using interfacial strain to curl nanosheets into nanovesicles is introduced.
Findings
RhRu nanovesicles/C exhibit 24.19 times higher hydrogen oxidation reaction mass activity than commercial Pt/C.
HEMFC with RhRu nanovesicles/C achieves a peak power density of 1.62 W cm−2, outperforming commercial Pt/C.
Abstract
Vesicle, a microscopic unit that encloses a volume with an ultrathin wall, is ubiquitous in biomaterials. However, it remains a huge challenge to create its inorganic metal-based artificial counterparts. Here, inspired by the formation of biological vesicles, we proposed a novel biomimetic strategy of curling the ultrathin nanosheets into nanovesicles, which was driven by the interfacial strain. Trapped by the interfacial strain between the initially formed substrate Rh layer and subsequently formed RhRu overlayer, the nanosheet begins to deform in order to release a certain amount of strain. Density functional theory (DFT) calculations reveal that the Ru atoms make the curling of nanosheets more favorable in thermodynamics applications. Owing to the unique vesicular structure, the RhRu nanovesicles/C displays excellent hydrogen oxidation reaction (HOR) activity and stability, which has…
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Taxonomy
TopicsMicroplastics and Plastic Pollution · Halal products and consumer behavior
