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Bottom-up evolution of perovskite clusters into high-activity rhodium nanoparticles toward alkaline hydrogen evolution

Gaoxin Lin, Zhuang Zhang, Qiangjian Ju, Tong Wu, Carlo U. Segre, Wei Chen, Hongru Peng, Hui Zhang, Qiunan Liu, Zhi Liu, Yifan Zhang, Shuyi Kong, Yuanlv Mao, Wei Zhao, Kazu Suenaga, Fuqiang Huang, Jiacheng Wang

2023Nature Communications59 citationsDOIOpen Access PDF

Abstract

Abstract Self-reconstruction has been considered an efficient means to prepare efficient electrocatalysts in various energy transformation process for bond activation and breaking. However, developing nano-sized electrocatalysts through complete in-situ reconstruction with improved activity remains challenging. Herein, we report a bottom-up evolution route of electrochemically reducing Cs 3 Rh 2 I 9 halide-perovskite clusters on N-doped carbon to prepare ultrafine Rh nanoparticles (~2.2 nm) with large lattice spacings and grain boundaries. Various in-situ and ex-situ characterizations including electrochemical quartz crystal microbalance experiments elucidate the Cs and I extraction and Rh reduction during the electrochemical reduction. These Rh nanoparticles from Cs 3 Rh 2 I 9 clusters show significantly enhanced mass and area activity toward hydrogen evolution reaction in both alkaline and chlor-alkali electrolyte, superior to liquid-reduced Rh nanoparticles as well as bulk Cs 3 Rh 2 I 9 -derived Rh via top-down electro-reduction transformation. Theoretical calculations demonstrate water activation could be boosted on Cs 3 Rh 2 I 9 clusters-derived Rh nanoparticles enriched with multiply sites, thus smoothing alkaline hydrogen evolution.

Topics & Concepts

NanoparticleElectrochemistryMaterials scienceRhodiumChemical engineeringCatalysisElectrolyteAlkali metalQuartz crystal microbalanceInorganic chemistryNanotechnologyChemistryElectrodePhysical chemistryAdsorptionOrganic chemistryEngineeringElectrocatalysts for Energy ConversionAmmonia Synthesis and Nitrogen ReductionAdvanced Photocatalysis Techniques
Bottom-up evolution of perovskite clusters into high-activity rhodium nanoparticles toward alkaline hydrogen evolution | Litcius