The last few decades have witnessed unprecedented convergence between humans and
machines that closely operate around the human body. Despite these advances, traditional …

Recent progress in electronic skin or e‐skin research is broadly reviewed, focusing on
technologies needed in three main applications: skin‐attachable electronics, robotics, and …

Intrinsically stretchable bioelectronic devices based on soft and conducting organic
materials have been regarded as the ideal interface for seamless and biocompatible …

Bioelectronic interfacing with the human body including electrical stimulation and recording
of neural activities is the basis of the rapidly growing field of neural science and engineering …

Polymeric tissue adhesives provide versatile materials for wound management and are
widely used in a variety of medical settings ranging from minor to life-threatening tissue …

An ionotronic device functions by a hybrid circuit of mobile ions and mobile electrons.
Hydrogels are stretchable, transparent, ionic conductors that can transmit electrical signals …

Brain–computer interfaces—which allow direct communication between the brain and
external computers—have potential applications in neuroscience, medicine and virtual …

Conducting polymer hydrogels are promising materials in soft bioelectronics because of
their tissue‐like mechanical properties and the capability of electrical interaction with …

As polymer networks infiltrated with water, hydrogels constitute the major components of the
human body; and hydrogels have been widely used in applications that closely interact with …

Conducting polymers are promising material candidates in diverse applications including
energy storage, flexible electronics, and bioelectronics. However, the fabrication of …