芝加哥大学研究人员开发可伸缩的水文凝胶半导体,用于生物电子集成。 University of Chicago researchers develop stretchable hydrogel semiconductor for bioelectronics integration.
芝加哥大学的研究人员引进了一种破土的水文凝胶半导体,通过允许与活组织有效结合,加强生物电子学。 Researchers at the University of Chicago have introduced a groundbreaking hydrogel semiconductor that enhances bioelectronics by allowing efficient integration with living tissues. 这种具有软、可伸缩性能和半导体功能的创新材料,旨在改进起搏器和药物运载系统等医疗装置。 This innovative material, featuring soft, stretchable properties and semiconductive functionality, aims to improve medical devices like pacemakers and drug delivery systems. 它减少了免疫反应和炎症,有可能使组织工程和伤口护理的应用发生革命性变化。 It reduces immune responses and inflammation, potentially revolutionizing applications in tissue engineering and wound care.