Conductive hydrogels have emerged as promising materials for various applications in the field of wearable bioelectronics and therapeutics. These hydrogels possess unique properties that make them suitable for integration with electronic devices and provide an interface between biological systems and electronics. This paper presents a comprehensive review of the current progress in conductive hydrogels and their applications in wearable bioelectronics and therapeutics. The review covers the synthesis methods, properties, and characterization techniques of conductive hydrogels. It further explores their utilization in biosensors, neural interfaces, and drug delivery systems. Additionally, the challenges and future prospects of conductive hydrogels in wearable bioelectronics and therapeutics are discussed. Overall, this review highlights the significant advancements in the field and emphasizes the potential impact of conductive hydrogels in enabling new opportunities for wearable bioelectronics and therapeutics.
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