Abstract
Skin, the largest organ in the body, is capable of detecting and reacting to a variety of external stimuli. The development of electronic skinElectronic skin (E-skin) for the imitation of the human sensory system has recently gained a lot of attention due to its potential applications in wearable human health monitoring and care systems, advanced robotics, artificial intelligence, and human–machine interfaces. Electronic skin sensing devices have accelerated due to graphene’s capacity to achieve unique functionality using a variety of assembly processable processes. Consequently, the use of graphene and the components that make it up in biomedicine is growing. This review focuses on high-performance electronic skinElectronic skin that has been developed for biosensingBiosensing applications through a number of research projects. Additionally, a brief discussion of electronic skin’s production processes, research obstacles, and future prospects was included.
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