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Munkhshur Myekhlai Dr. Tania M. Benedetti Dr. Lucy Gloag Agus R. Poerwoprajitno Dr. Soshan Cheong Prof. Dr. Wolfgang Schuhmann Prof. Dr. J. Justin Gooding Prof. Dr. Richard D. Tilley 《Chemistry (Weinheim an der Bergstrasse, Germany)》2020,26(67):15501-15504
Producing stable but active materials is one of the enduring challenges in electrocatalysis and other types of catalysis. Producing branched nanoparticles is one potential solution. Controlling the number of branches and branch size of faceted branched nanoparticles is one of the major synthetic challenges to achieve highly active and stable nanocatalysts. Herein, we use a cubic-core hexagonal-branch mechanism to synthesize branched Ru nanoparticles with control over the size and number of branches. This structural control is the key to achieving high exposure of active {10–11} facets and optimum number of Ru branches that enables improved catalytic activity for oxygen evolution reaction while maintaining high stability. 相似文献
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