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Unique hole-accepting carbon-dots promoting selective carbon dioxide reduction nearly 100% to methanol by pure water.


ABSTRACT: Solar-driven CO2 reduction by abundant water to alcohols can supply sustainable liquid fuels and alleviate global warming. However, the sluggish water oxidation reaction has been hardly reported to be efficient and selective in CO2 conversion due to fast charge recombination. Here, using transient absorption spectroscopy, we demonstrate that microwave-synthesised carbon-dots (mCD) possess unique hole-accepting nature, prolonging the electron lifetime (t50%) of carbon nitride (CN) by six folds, favouring a six-electron product. mCD-decorated CN stably produces stoichiometric oxygen and methanol from water and CO2 with nearly 100% selectivity to methanol and internal quantum efficiency of 2.1% in the visible region, further confirmed by isotopic labelling. Such mCD rapidly extracts holes from CN and prevents the surface adsorption of methanol, favourably oxidising water over methanol and enhancing the selective CO2 reduction to alcohols. This work provides a unique strategy for efficient and highly selective CO2 reduction by water to high-value chemicals.

SUBMITTER: Wang Y 

PROVIDER: S-EPMC7242399 | biostudies-literature | 2020 May

REPOSITORIES: biostudies-literature

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Unique hole-accepting carbon-dots promoting selective carbon dioxide reduction nearly 100% to methanol by pure water.

Wang Yiou Y   Liu Xu X   Han Xiaoyu X   Godin Robert R   Chen Jialu J   Zhou Wuzong W   Jiang Chaoran C   Thompson Jamie F JF   Mustafa K Bayazit KB   Shevlin Stephen A SA   Durrant James R JR   Guo Zhengxiao Z   Tang Junwang J  

Nature communications 20200521 1


Solar-driven CO<sub>2</sub> reduction by abundant water to alcohols can supply sustainable liquid fuels and alleviate global warming. However, the sluggish water oxidation reaction has been hardly reported to be efficient and selective in CO<sub>2</sub> conversion due to fast charge recombination. Here, using transient absorption spectroscopy, we demonstrate that microwave-synthesised carbon-dots (<sup>m</sup>CD) possess unique hole-accepting nature, prolonging the electron lifetime (t<sub>50%</  ...[more]

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