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A Skin-Inspired Self-Adaptive System for Temperature Control During Dynamic Wound Healing

Yaqi Geng, Guoyin Chen, Ran Cao, Hongmei Dai, Zexu Hu, Senlong Yu, Le Wang, Liping Zhu, Hengxue Xiang, Meifang Zhu

2024Nano-Micro Letters37 citationsDOIOpen Access PDF

Abstract

The thermoregulating function of skin that is capable of maintaining body temperature within a thermostatic state is critical. However, patients suffering from skin damage are struggling with the surrounding scene and situational awareness. Here, we report an interactive self-regulation electronic system by mimicking the human thermos-reception system. The skin-inspired self-adaptive system is composed of two highly sensitive thermistors (thermal-response composite materials), and a low-power temperature control unit (Laser-induced graphene array). The biomimetic skin can realize self-adjusting in the range of 35-42 °C, which is around physiological temperature. This thermoregulation system also contributed to skin barrier formation and wound healing. Across wound models, the treatment group healed ~ 10% more rapidly compared with the control group, and showed reduced inflammation, thus enhancing skin tissue regeneration. The skin-inspired self-adaptive system holds substantial promise for next-generation robotic and medical devices.

Topics & Concepts

Self-healingThermistorSkin temperatureHuman skinMaterials scienceWound healingBiomedical engineeringElectronic skinComputer scienceNanotechnologyMedicineEngineeringSurgeryBiologyElectrical engineeringPathologyGeneticsAlternative medicineAdvanced Sensor and Energy Harvesting MaterialsTactile and Sensory InteractionsThermoregulation and physiological responses
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