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Solar-to-Chemical Conversion


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injected into TiO2 back to the oxidized light absorber and hole injection into the IrOx catalyst is shifted in favor of catalysis, thus improving the quantum efficiency of water oxidation by a factor of three. The approach offers substantial room for further efficiency improvement because the relative position of the light absorber and the catalyst with the attached mediator is not yet molecularly defined in the present system.

(a) Gas production under six hours visible‐light irradiation of pure Cu2O and Cl‐doped Cu2O samples. (b) Mass spectrum from the 18O‐labeling H2O isotope experiments of Cu2O–Cl‐4. (c) Time‐dependent product evolution over Cu2O–Cl‐4 under visible‐light irradiation. (d) Stability test of Cu2O–Cl‐4. (e) Proposed reaction pathways of CO2RR to CO and CH4 on Cl‐doped Cu2O.

      Source: Yu et al. [83].