Soft bio-integrated multifunctional devices have gained significant attention in the field of wearable electronics and biomedical applications. The development of stretchable conducting nanomembranes has emerged as a promising approach to enable the integration of electronics with biological systems, offering enhanced mechanical flexibility and biocompatibility. This paper provides an overview of the current research on stretchable conducting nanomembranes and their applications in soft bio-integrated multifunctional devices. We discuss the fabrication methods, materials, and functionalization strategies employed to achieve the desired mechanical properties and electrical conductivity of these nanomembranes. Furthermore, we highlight the potential applications of stretchable conducting nanomembranes in biosensing, drug delivery, and human-machine interfaces. The integration of stretchable conducting nanomembranes into soft bio-integrated devices opens up new opportunities for advanced healthcare monitoring, diagnostics, and therapeutic interventions.
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