In Situ Monitoring of the 'Point Discharge' Induced Antibacterial Process by the Onsite Formation of a Raman Probe

摘要

Electroporation induced by the "point discharge" effect is an effective technique for bacteria inactivation. Rapidly monitoring the electroporation-induced inactivation process is important for screening nanomaterials with high antimicrobial performance. In this study, we develop a facile strategy to in situ monitor the electroporation induced antimicrobial mechanism based on the surface-enhanced Raman scattering (SERS) effect of the Au-nanotip arrays. Owning to the high local-electric field (similar to 10(7) V m(-1)) generated on the Au nanotips, the bacteria are rapidly electroporated and effectively inactivated with >= 99.9% reduction in bacteria colony counts by only applying an external voltage of +0.8 V for 10 s. The related inactivation mechanism is directly verified by the formation of the Prussian blue (PB) nanocrystals by leaking of the uptaken [Fe(CN)(6)](3-) ions from the cleavage area on the cell membrane. These [Fe(CN)(6)](3-) ions react with Fe2+ to form PB nanocrystals onsite as soon as they leak out. The characteristic peak of PB in the cellular Raman-silent region provides a collective monitoring approach for the destruction of microorganisms. The present strategy not only develops a facial method for future use in evaluating electroporation materials, but also paves a rapid way for offering accurate information on some antibacterial and antitumor processes.