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Constructing Highly Efficient ZnO Nanocatalysts with Exposed Extraordinary (110) Facet for CO<sub>2</sub> Electroreduction

Shuoshuo Jiang, Chen Yang, Xin Cui, Ying Sun, Guanghuan Ma, Yuxin Bao, Yali Yao, Tianyi Ma

2024ACS Applied Materials & Interfaces30 citationsDOI

Abstract

Electrochemical reduction of CO 2 to highly valuable products is a promising way to reduce CO 2 emissions. The shape and facets of metal nanocatalysts are the key parameters in determining the catalytic performance. However, the exposed crystal facets of ZnO with different morphologies and which facets achieve a high performance for CO 2 reduction are still controversial. Here, we systematically investigate the effect of the facet-dependent reactivity of reduction of CO 2 to CO on ZnO (nanowire, nanosheet, and flower-like). The ZnO nanosheet with exposed (110) facet exhibited prominent catalytic performance with a Faradaic efficiency of CO up to 84% and a current density of −10 mA cm –2 at −1.2 V versus RHE, far outperforming the ZnO nanowire (101) and ZnO nanoflower (103). Based on detailed characterizations and kinetic analysis, the ZnO nanosheet (110) with porous architecture increased the exposure of active sites. Further studies revealed that the high CO selectivity originated from the enhancement of CO 2 adsorption and activation on the ZnO (110) facet, which promoted the conversion of CO 2 toward CO. This study provides a new way to tailor the activity and selectivity of metal catalysts by engineering exposed specific facets.

Topics & Concepts

Materials scienceNanosheetNanomaterial-based catalystSelectivityFacet (psychology)CatalysisNanoflowerNanotechnologyNanowireFaraday efficiencyNanocrystalChemical engineeringElectrochemistryNanostructureElectrodeNanoparticleChemistryPhysical chemistryPsychologySocial psychologyBig Five personality traitsPersonalityEngineeringBiochemistryCO2 Reduction Techniques and CatalystsAdvanced Thermoelectric Materials and DevicesIonic liquids properties and applications
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