Visible-Light Photoinduced Electron Transfer Promoted
by Cucurbit[8]uril-Enhanced Charge Transfer Interaction: Toward Improved
Activity of Photocatalysis
- Publication date
- Publisher
Abstract
Visible-light photoinduced
electron transfer (Vis-PET) is highly
important for optoelectronic devices and photoredox catalysis. Herein,
we propose a supramolecular strategy to promote the Vis-PET process
by charge transfer (CT) interactions. As a proof of concept, a molecular
system containing 1,5-alkoxy-substituted naphthalene and viologen
moieties was designed to form a CT complex in water. The HOMO/LUMO
energy gap was lowered by CT interaction, which turned on the Vis-PET
process to generate viologen radical cations. Moreover, when CT interaction
was enhanced by cucurbit[8]uril, the efficiency of the Vis-PET
process was further promoted and the required irradiation wavelength
could be further red-shifted by 100 nm. The Vis-PET system exhibited
an improved activity of photocatalysis, as supported by the fast photoreduction
of Cytochrome <i>c</i>. This study represents a facile supramolecular
way to fabricate radicals with maintained activity under mild conditions,
which holds potential to enrich the scope of visible-light photoredox
catalysis by the rational utilization of CT systems