American Chemical Society
ie9b06464_si_001.pdf (1.59 MB)

Engineering Active Ni Sites in Ternary Layered Double Hydroxide Nanosheets for a Highly Selective Photoreduction of CO2 to CH4 under Irradiation above 500 nm

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journal contribution
posted on 2020-01-28, 16:33 authored by Xiaojie Hao, Ling Tan, Yanqi Xu, Zelin Wang, Xian Wang, Sha Bai, Chenjun Ning, Jingwen Zhao, Yufei Zhao, Yu-Fei Song
Reduction of photocatalytic CO2 into renewable hydrocarbon solar fuels is considered to be a promising strategy that can simultaneously address global energy needs as well as environmental concerns. To date, making use of a higher wavelength for photocatalytic conversion of CO2 to CH4 continues to be highly challenging. In this work, we report a highly selective reduction of CO2 into CH4 and CO by introducing Ni species into CoFe-layered double hydroxide (LDH) as the visible light photocatalyst in conjunction with a Ru complex sensitizer. A more interesting finding is that the selectivity of CH4 was raised to 78.9% as compared to 0% of CoFe-LDH, while the H2 evolution was suppressed to 1.7% as compared to 30.5% of CoFe-LDH under light irradiation at λ > 500 nm. The involvement of Ni2+ ions in the CoFe-LDH layers has shown to promote the photoinduced electron–hole pair separation and thereby facilitate the photocatalytic efficiency. This work provides a new strategy for exploring the Ni-based earth-abundant photocatalysts for CO2 photoreduction.