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Silicon photocathode functionalized with osmium complex catalyst for selective catalytic conversion of CO2 to methane

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  • Xing-Yi Li

    (Shantou University
    Shantou University)

  • Ze-Lin Zhu

    (City University of Hong Kong)

  • Fentahun Wondu Dagnaw

    (Shantou University)

  • Jie-Rong Yu

    (Shantou University)

  • Zhi-Xing Wu

    (Linköping University)

  • Yi-Jing Chen

    (Shantou University)

  • Mu-Han Zhou

    (Shantou University)

  • Tieyu Wang

    (Shantou University)

  • Qing-Xiao Tong

    (Shantou University
    Shantou University)

  • Jing-Xin Jian

    (Shantou University
    Shantou University)

Abstract

Solar-driven CO2 reduction to yield high-value chemicals presents an appealing avenue for combating climate change, yet achieving selective production of specific products remains a significant challenge. We showcase two osmium complexes, przpOs, and trzpOs, as CO2 reduction catalysts for selective CO2-to-methane conversion. Kinetically, the przpOs and trzpOs exhibit high CO2 reduction catalytic rate constants of 0.544 and 6.41 s−1, respectively. Under AM1.5 G irradiation, the optimal Si/TiO2/trzpOs have CH4 as the main product and >90% Faradaic efficiency, reaching −14.11 mA cm−2 photocurrent density at 0.0 VRHE. Density functional theory calculations reveal that the N atoms on the bipyrazole and triazole ligands effectively stabilize the CO2-adduct intermediates, which tend to be further hydrogenated to produce CH4, leading to their ultrahigh CO2-to-CH4 selectivity. These results are comparable to cutting-edge Si-based photocathodes for CO2 reduction, revealing a vast research potential in employing molecular catalysts for the photoelectrochemical conversion of CO2 to methane.

Suggested Citation

  • Xing-Yi Li & Ze-Lin Zhu & Fentahun Wondu Dagnaw & Jie-Rong Yu & Zhi-Xing Wu & Yi-Jing Chen & Mu-Han Zhou & Tieyu Wang & Qing-Xiao Tong & Jing-Xin Jian, 2024. "Silicon photocathode functionalized with osmium complex catalyst for selective catalytic conversion of CO2 to methane," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-50244-w
    DOI: 10.1038/s41467-024-50244-w
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