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Selective CO Production by Photoelectrochemical Methane Oxidation on TiO2.


ABSTRACT: The inertness of the C-H bond in CH4 poses significant challenges to selective CH4 oxidation, which often proceeds all the way to CO2 once activated. Selective oxidation of CH4 to high-value industrial chemicals such as CO or CH3OH remains a challenge. Presently, the main methods to activate CH4 oxidation include thermochemical, electrochemical, and photocatalytic reactions. Of them, photocatalytic reactions hold great promise for practical applications but have been poorly studied. Existing demonstrations of photocatalytic CH4 oxidation exhibit limited control over the product selectivity, with CO2 as the most common product. The yield of CO or other hydrocarbons is too low to be of any practical value. In this work, we show that highly selective production of CO by CH4 oxidation can be achieved by a photoelectrochemical (PEC) approach. Under our experimental conditions, the highest yield for CO production was 81.9%. The substrate we used was TiO2 grown by atomic layer deposition (ALD), which features high concentrations of Ti3+ species. The selectivity toward CO was found to be highly sensitive to the substrate types, with significantly lower yield on P25 or commercial anatase TiO2 substrates. Moreover, our results revealed that the selectivity toward CO also depends on the applied potentials. Based on the experimental results, we proposed a reaction mechanism that involves synergistic effects by adjacent Ti sites on TiO2. Spectroscopic characterization and computational studies provide critical evidence to support the mechanism. Furthermore, the synergistic effect was found to parallel heterogeneous CO2 reduction mechanisms. Our results not only present a new route to selective CH4 oxidation, but also highlight the importance of mechanistic understandings in advancing heterogeneous catalysis.

SUBMITTER: Li W 

PROVIDER: S-EPMC5968511 | biostudies-literature | 2018 May

REPOSITORIES: biostudies-literature

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Selective CO Production by Photoelectrochemical Methane Oxidation on TiO<sub>2</sub>.

Li Wei W   He Da D   Hu Guoxiang G   Li Xiang X   Banerjee Gourab G   Li Jingyi J   Lee Shin Hee SH   Dong Qi Q   Gao Tianyue T   Brudvig Gary W GW   Waegele Matthias M MM   Jiang De-En DE   Wang Dunwei D  

ACS central science 20180423 5


The inertness of the C-H bond in CH<sub>4</sub> poses significant challenges to selective CH<sub>4</sub> oxidation, which often proceeds all the way to CO<sub>2</sub> once activated. Selective oxidation of CH<sub>4</sub> to high-value industrial chemicals such as CO or CH<sub>3</sub>OH remains a challenge. Presently, the main methods to activate CH<sub>4</sub> oxidation include thermochemical, electrochemical, and photocatalytic reactions. Of them, photocatalytic reactions hold great promise for  ...[more]

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