posted on 2022-02-03, 04:03authored byMinyang Zhao, Xiaodong Lin, Xiao Zhou, Yujie Zhang, Haotian Wu, Yaqing Liu
Simple
and efficient identification of multiple bacteria and sterilization
in real time is of considerable significance for clinical diagnostics
and quality control in food. Herein, a novel chemical-tongue sensor
array with 3,3′,5,5′-tetramethylbenzidine (TMB) as a
single probe was developed for bacterial identification and photothermal
elimination. The synthesized bimetallic palladium/platinum nanoparticles
(Pd/PtNPs) present excellent catalytic capability that
can catalyze TMB into oxidized TMB (oxTMB) with four feature absorption
peaks. Bacteria have different ability on inhibiting the reaction
between TMB and Pd/PtNPs. With the absorbance intensity
of oxTMB at the four feature peaks as readout, nine kinds of bacteria
including two drug-resistant bacteria can be successfully distinguished via linear discriminant analysis. Remarkably, oxTMB exhibits
excellent photothermal properties and can effectively kill bacteria
in real time under near-infrared laser irradiation. The strategy of
selecting TMB as a single probe simplifies the experimental operation
and reduces the time cost. Furthermore, the developed sensing system
was used to promote the wound healing process of MRSA-infected mice in vivo. The investigation provides a promising simple and
efficient strategy for bacterial identification and sterilization
with a universal platform, which has great potential application in
clinical diagnosis and therapy.