The adjustable intermediate binding capacity in electrocatalytic carbon dioxide (CO2) reduction is critical for varying the reaction pathways to desired products. Herein, we first report the synthesis of boron-doped amorphous zinc oxide with (B-a-ZnO-Sb) or without antimony nanoparticles embedding (B-a-ZnO) via one-step wet chemical method, which is easy to scale up by enlarging the vessel and increasing feeding. Sb successfully realizes the product switching from CO on B-a-ZnO to formate on B-a-ZnO-Sb. Both experimental and theoretical results reveal that Sb weakens the charge interaction on Zn atoms. Based on the moderate adsorption of *COOH and strong adsorption of *OCHO and *HCOOH for B-a-ZnO, the foreign Sb weakens the adsorption of these intermediates and brings about a favor formate production instead of CO. This work points out a new direction for the synthesis of amorphous ZnO-based catalysts and provides advanced insights into the aimed selectivity switch for CO2 reduction by electronic effect.
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Research Article
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Nano Research 2023, 16 (10): 12144-12152
Published: 15 March 2023
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