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A synergetic cocatalyst for conversion of carbon dioxide, sunlight, and water into methanol.

Zhengwei YeKe R YangBingxing ZhangIshtiaque Ahmed NavidYifan ShenYixin XiaoAlexandre PofelskiGianluigi A BottonTao MaShubham MondalTheodore B NorrisVictor S BatistaZetian Mi
Published in: Proceedings of the National Academy of Sciences of the United States of America (2024)
The conversion of CO 2 into liquid fuels, using only sunlight and water, offers a promising path to carbon neutrality. An outstanding challenge is to achieve high efficiency and product selectivity. Here, we introduce a wireless photocatalytic architecture for conversion of CO 2 and water into methanol and oxygen. The catalytic material consists of semiconducting nanowires decorated with core-shell nanoparticles, with a copper-rhodium core and a chromium oxide shell. The Rh/CrOOH interface provides a unidirectional channel for proton reduction, enabling hydrogen spillover at the core-shell interface. The vectorial transfer of protons, electrons, and hydrogen atoms allows for switching the mechanism of CO 2 reduction from a proton-coupled electron transfer pathway in aqueous solution to hydrogenation of CO 2 with a solar-to-methanol efficiency of 0.22%. The reported findings demonstrate a highly efficient, stable, and scalable wireless system for synthesis of methanol from CO 2 that could provide a viable path toward carbon neutrality and environmental sustainability.
Keyphrases
  • carbon dioxide
  • highly efficient
  • electron transfer
  • high efficiency
  • aqueous solution
  • reduced graphene oxide
  • visible light
  • low cost
  • human health
  • life cycle
  • gold nanoparticles
  • room temperature
  • structural basis