Photocatalytic performance of K2Ti6O13 whiskers to H2 evolution and CO2 photo-reduction

K2Ti6O13 whiskers were synthesized by conventional sol-gel method, sono-chemical assisted and microwave assisted sol-gel method in order to obtain catalysts with different particle sizes and to modify their optical, textural and electrochemical properties. These modifications improved their photocatalytic activity for H2 evolution and CO2 photo-reduction. Long K2Ti6O13 whiskers prepared by ultrasound assisted sol-gel method are the most active photocatalysts for the hydrogen evolution reaction using pure water as reactant (U-SG, 10,065 µmol g−1). In contrast, an opposite behavior was observed using a mixture of ethanol-water, where the highest activity was achieved by the shortest and less crystalline K2Ti6O13 whiskers (C-SG, 3,2871 µmol g−1). In case of CO2 photo-reduction, long whiskers that were also prepared by the sono-chemical assisted sol-gel method were the most active to transform CO2 to formaldehyde, methane, methanol and hydrogen. The EFB value of this catalyst is located very close to the potential for formaldehyde production and favors the selectivity to this organic product. © 2018 Science Press and Dalian Institute of Chemical Physics, Chinese Academy of Sciences

CO2 reduction; Hydrogen evolution; K2Ti6O13; Sol-gel; Whiskers Carbon dioxide; Catalyst selectivity; Crystal whiskers; Formaldehyde; Hydrogen; Image enhancement; Reduction; Sol-gel process; Sol-gels; CO2 reduction; Different particle sizes; Hydrogen evolution; Hydrogen evolution reactions; K2Ti6O13; Microwave assisted sol-gel methods; Photocatalytic activities; Photocatalytic performance; Titanium compounds

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