Recent advances in nanoparticle materials can facilitate the electro-reduction of carbon dioxide (CO) to form valuable products with high selectivity. Copper (Cu)-based electrodes are promising candidates to drive efficient and selective CO reduction. However, the application of Cu-based chalcopyrite semiconductors in the electrocatalytic reduction of CO is still limited. This study demonstrated that novel zinc oxide (ZnO)/copper indium gallium sulfide (CIGS)/indium sulfide (InS) heterojunction electrodes could be used in effective CO reduction for formic acid production. It has been determined that Faradaic efficiencies for formic acid production using ZnO nanowire (NW) and nanoflower (NF) structures vary due to structural and morphological differences. A ZnO NW/CIGS/InS heterojunction electrode resulted in the highest efficiency of 77.2% and 0.35 mA cm of current density at a -0.24 V (vs. reversible hydrogen electrode) bias potential. Adding a ZTO intermediate layer by the spray pyrolysis method decreased the yield of formic acid and increased the yield of H. Our work offers a new heterojunction electrode for efficient formic acid production via cost-effective and scalable CO reduction.
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| http://dx.doi.org/10.1021/acsomega.4c00018 | DOI Listing |
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