posted on 2019-08-16, 12:09authored byYue Luo, Jun Li, Xiangmei Liu, Lei Tan, Zhenduo Cui, Xiaobo Feng, Xianjin Yang, Yanqin Liang, Zhaoyang Li, Shengli Zhu, Yufeng Zheng, Kelvin Wai Kwok Yeung, Cao Yang, Xianbao Wang, Shuilin Wu
Herein, a core–shell
dual metal–organic framework
(MOF) heterointerface is synthesized. The Prussian blue (PB) MOF acts
as a core for the growth of a porphyrin-doped MOF which is named PB@MOF.
Porphyrins can significantly enhance the transfer of photoinspired
electrons from PB and suppress the recombination of electrons and
holes, thus enhancing the photocatalytic properties and consequently
promoting the yields of singlet oxygen rapidly under 660 nm illumination.
PB@MOF can exhibit a better photothermal conversion efficiency up
to 29.9% under 808 nm near-infrared irradiation (NIR). The PB@MOF
heterointerface can possess excellent antibacterial efficacies of
99.31% and 98.68% opposed to Staphylococcus aureus and Escherichia coli, separately, under the dual
light illumination of 808 nm NIR and 660 nm red light for 10 min.
Furthermore, the trace amount of Fe and Zr ions can trigger the immune
system to favor wound healing, promising that PB@MOF achieves the
rapid therapy of bacterial infected wounds and environmental disinfection.