Architected flexible electronic devices with rationally designed 3D geometries have found
essential applications in biology, medicine, therapeutics, sensing/imaging, energy, robotics …

Skin is the largest organ, with the functionalities of protection, regulation, and sensation. The
emulation of human skin via flexible and stretchable electronics gives rise to electronic skin …

Skin is the largest organ of the human body, and it offers a diagnostic interface rich with vital
biological signals from the inner organs, blood vessels, muscles, and dermis/epidermis. Soft …

Soft electronics are intensively studied as the integration of electronics with dynamic
nonplanar surfaces has become necessary. Here, a discussion of the strategies in materials …

Exciting advancements have been made in the field of flexible electronic devices in the last
two decades and will certainly lead to a revolution in peoples' lives in the future. However …

Over the past decade, the area of stretchable inorganic electronics has evolved very rapidly,
in part because the results have opened up a series of unprecedented applications with …

Fiber‐based structures are highly desirable for wearable electronics that are expected to be
light‐weight, long‐lasting, flexible, and conformable. Many fibrous structures have been …

Sensors and algorithms are two fundamental elements to construct intelligent systems. The
recent progress in machine learning (ML) has produced great advancements in intelligent …

Since wearable technologies for telemedicine have emerged to tackle global health
concerns, the demand for well‐attested wearable healthcare devices with high user comfort …

Epidermal electrophysiology is widely carried out for disease diagnosis, performance
monitoring, human-machine interaction, etc. Compared with thick, stiff, and irritating gel …