Flexible Breathable Nanomesh Electronic Devices for On‐Demand Therapy

Abstract Flexible electronics are drawing tremendous interest for various applications in wearable healthcare biomonitoring, on‐demand therapy, and human–machine interactions. However, conventional plastic substrates with uncomfortableness, mechanical mismatches, and impermeability have limited the application of flexible on‐skin electronic devices for healthcare biomonitoring and on‐demand therapy. Herein, flexible breathable electronic devices with the capabilities of real‐time temperature sensing and timely on‐demand anti‐infection therapy at wound sites are presented. These devices are assembled from a crosslinked electrospun moxifloxacin hydrochloride (MOX)‐loaded thermoresponsive polymer nanomesh film with a conductive pattern. The conductive polymer nanomesh film demonstrates excellent flexibility, reliable breathability, and robust environmental stability. Furthermore, the assembled temperature sensor displays a linear relationship between the electrical resistance and temperature, potentially enabling real‐time biomonitoring of tissue temperature at the wound site. Smart artificial electronic skins (E‐skins) are assembled from the thermoresponsive polymer nanomesh film for spatial touching sensing mapping of temperature changes. Furthermore, the flexible temperature sensor is coupled with a wireless transmitter for real‐time wireless temperature monitoring. Notably, the thermoresponsive polymer nanomesh film can also be assembled as a highly efficient flexible heater to trigger the on‐demand release of antibiotics loaded in the fibers to eliminate bacterial colonization in the wound site once infection has occurred.