Yingying Jin

TL;DR: In this article, the authors discuss the recent progress in biofilm interference and smart antibacterial surfaces and discuss the major topics discussed are: (i) smart anti-biofilm surfaces via the prevention of biofilm formation or promoting mature biofilm dissolution, (ii) smart materials for reversible killing and/or release of bacteria, (iii) smart surfaces responsive to bacterial infection microenvironments or external stimuli and (iv) bio-inspired surfaces with antifouling and bactericidal properties.

TL;DR: This review describes the latest advances in the phototherapy strategies to resist resistant bacteria and biofilms related infections as well as various construction and modification methods of nanomaterials showed high efficient antibacterial properties.

TL;DR: This review discusses the recent progress in biofilm interference and smart antibacterial surfaces and discusses bio-inspired surfaces with antifouling and bactericidal properties.

TL;DR: This review summarizes the recent progress in targeted and responsive drug delivery systems for enhanced antibacterial properties.

TL;DR: In an in vivo rabbit wound bacterial infection model, the rapid sterilization of CMC-MB NPs played a crucial role in bacterial infections, inflammation inhibition, and wound healing and exhibited an efficient antitumor therapeutic effect in a subcutaneous tumor mice model as a PDT treatment against cancer.