Photocatalysis offers a direct, yet robust, approach
to eradicate
pathogenic bacteria. However, the practical implementation of photocatalytic
disinfection faces a significant challenge due to low-efficiency
photogenerated carrier separation and transfer. Here, we present an
effective approach to improve photocatalytic disinfection performance
by exploiting the pyro-phototronic effect through a synergistic combination
of pyroelectric properties and photocatalytic processes. A set of
comprehensive studies reveals that the temperature fluctuation-induced
pyroelectric field promotes photoexcited carrier separation and transfer
and thus facilitates the generation of reactive oxygen species and
ultimately enhances photocatalytic disinfection performance. It is
worth highlighting that the constructed film demonstrated an exceptional
antibacterial efficiency exceeding 95% against pathogenic bacteria
under temperature fluctuations and light irradiation. Moreover, the
versatile modulation role of the pyro-phototronic effect in boosting
photocatalytic disinfection was corroborated. This work paves the
way for improving photocatalytic disinfection efficiency by harnessing
the synergistic potential of various inherent material properties