Near-infrared thermally activated delayed fluorescence of D-pi-A-pi-D difluoroboron complex for efficient singlet oxygen generation in aqueous media

The rational design of novel photosensitizers with broad absorption and small singlet-triplet energy gap (Delta E-ST) is of great importance for photodynamic therapy and photocatalytic reactions. Herein, a new type of thermally activated delayed fluorescence (TADF) material, BCzSFB, was designed and synthesized by the bonding of superior electron acceptor difluoroboron beta-diketonate, electron donor carbazole and pi-bridged styrene. The D-pi-A-pi-D structure of BCzSFB ranges at the nanoscale (with a length of about 2.4 nm), showing extremely small Delta E-ST (0.08 eV), broad absorption range (350-650 nm), and long lifetime of NIR TADF even as nanoparticles dispersed in aqueous media. It presents high singlet oxygen (O-1(2)) quantum yield (62%, higher than that of state-of-the-art dyes and commercial methylene blue and eosin blue), and selective photodynamic killing of Gram-positive bacteria. Nearly 100% of S. aureus can be killed in 10 minutes at a low white light dose (60 mW cm(-2)).