Biohydrogel–based flexible sensors have attracted enormous and growing attention for
personalized mobile equipment, human–machine interface units, wearable medical …

Together with the evolution of digital health care, the wearable electronics field has evolved
rapidly during the past few years and is expected to be expanded even further within the first …

Driven by its excellent physical and chemical properties, BC (bacterial cellulose) has
achieved significant progress in the last decade, rendering with many novel applications …

Materials with switchable mechanical properties are widespread in living organisms and
endow many species with traits that are essential for their survival. Many of the mechanically …

The utilization of low‐grade and abundant thermal sources based on thermoelectric (TE)
materials is crucial for the development of a sustainable society. However, high …

Conductive hydrogels have recently attracted extensive attention due to their broad
application prospects in flexible electronic devices and artificial intelligence. However, it is …

The development of ultralow voltage high‐performance bioartificial muscles with large
bending strain, fast response time, and excellent actuation durability is highly desirable for …

Harvest energy from ubiquitous low-grade waste heat with thermoelectric (TE) materials is a
prospective and crucial strategy in sustainable development. High-performance ionic …

Stimuli-responsive polymeric hydrogels are promising and appealing delivery vehicles for
protein/peptide drugs and have made protein/peptide delivery with both dosage-and …

Rigid robots have taken on a variety of automated manufacturing tasks and have made a
huge contribution to industrial development; however, they are not suitable for further …