A supramolecular single-site photocatalyst based on multi-to-one Forster resonance energy transfer

A multi-to-one supramolecular photocatalyst is fabricated by aqueous electrostatic self-assembly of multiple graphene quantum dot (GQD) antennas onto a single-Pt-site porphyrin unimolecular micelle (PtTHPD-UM) catalytic center. Light energy is transferred from GQDs to PtTHPD-UM to catalyze water splitting into hydrogen up to 57190 mu mol g((Pt))(-1) h(-1) under visible light.

Automated summary

In this study, a multi-to-one supramolecular photocatalyst was developed by assembling multiple graphene quantum dot antennas onto a single-Pt-site porphyrin unimolecular micelle catalytic center. This photocatalyst showed high efficiency in catalyzing water splitting into hydrogen using visible light.