4.8 Editorial Material

Efficient Hydrogen Production by a Photoredox Cascade Catalyst Comprising Dual Photosensitizers and a Transparent Electron Mediator

Journal

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
Volume 145, Issue 11, Pages 6035-6038

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/jacs.2c13687

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One-directional electron transport is crucial for efficient Z-scheme water-splitting photocatalysis. A photoredox cascade catalyst was synthesized to mimic natural photosynthesis's electron transport chain, using Pt-TiO2 nanoparticle catalyst, two photosensitizers (RuCP6 and RuP6), and a visible-light-transparent electron mediator (HCRu). The catalyst, named PRCC-1, exhibited the highest initial apparent quantum yield (iAQY = 2.23%) among dye-sensitized TiO2 photocatalysts, and successfully produced hydrogen using hydroquinone monosulfonate as the hydrogen source.
One-directional electron transport between a photocatalyst and redox mediator is crucial for achieving highly active Z-scheme water-splitting photocatalysis. Herein, a photoredox cascade catalyst that artificially mimics the electron transport chain in natural photosynthesis was synthesized from a Pt-TiO2 nanoparticle catalyst, two photosensitizers (RuCP6 and RuP6), and a visible -light-transparent electron mediator (HCRu). During photocatalytic hydrogen evolution in the presence of a redox-reversible electron donor, [Co(bpy)3](2+) (bpy = 2,2 ' bipyridine), the HCRu-Zr-RuCP6-Zr-RuP6@Pt-TiO2 (PRCC-1) photocatalyst exhibited the highest reported initial (1 h) apparent quantum yield (iAQY = 2.23%) of dye-sensitized TiO2 photocatalysts to date. Furthermore, PRCC-1 successfully produced hydrogen when using hydroquinone monosulfonate (H(2)QS(-)) as the hydrogen source.

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