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Diplatinum Single‐Molecular Photocatalyst Capable of Driving Hydrogen Production from Water via Singlet‐to‐Triplet Transitions

Toma Kunikubo, Raúl Castañeda, Muralee Murugesu, Jaclyn L. Brusso, Kosei Yamauchi, Hironobu Ozawa, Ken Sakai

2025Angewandte Chemie International Edition11 citationsDOI

Abstract

Abstract Solar‐driven hydrogen production is regarded as one of the most ideal methods to achieve a sustainable society. In order to artificially establish efficient photosynthetic systems, efforts have been made to develop single‐molecular photocatalysts capable of serving both as a photosensitizer (PS) and a catalyst (Cat) in hydrogen evolution reaction (HER). Although examples of such hybrid molecular photocatalysts have been demonstrated in the literature, their solar energy conversion efficiencies still remain quite limited. Here we demonstrate that a new dinuclear platinum(II) complex Pt 2 (bpia)Cl 3 (bpia=bis(2‐pyridylimidoyl)amido) serves as a single‐molecular photocatalyst for HER with its performance significantly higher than that of the PtCl(tpy)‐ and PtCl 2 (bpy)‐type photocatalysts developed in our group (tpy=2,2':6′,2''‐terpyridine, bpy=2,2′‐bipyridine). The outstanding feature is that Pt 2 (bpia)Cl 3 can produce H 2 even by irradiating the lower‐energy light above 500 nm, which is rationalized due to the direct population of triplet states via singlet‐to‐triplet transitions (i.e., S‐T transitions) accelerated by the diplatinum core. To the best of our knowledge, Pt 2 (bpia)Cl 3 is the first example of a single‐molecular photocatalyst enabling hydrogen production from water via the S‐T transitions using lower‐energy light (>580 nm).

Topics & Concepts

PhotocatalysisSinglet stateHydrogen productionPhotochemistryChemistryPhotosensitizerPopulationCatalysisTerpyridineArtificial photosynthesisMaterials sciencePhysicsAtomic physicsMetalOrganic chemistryExcited stateSociologyDemographyElectrocatalysts for Energy ConversionMetalloenzymes and iron-sulfur proteinsAdvanced Photocatalysis Techniques
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