Along with the arrival of the 5G era, sustainable and renewable energy supplies have
become urgent demands towards plentifully distributed devices utilized for constructing …

Soft robotics inspired by the movement of living organisms, with excellent adaptability and
accuracy for accomplishing tasks, are highly desirable for efficient operations and safe …

Textiles have been concomitant of human civilization for thousands of years. With the
advances in chemistry and materials, integrating textiles with energy harvesters will provide …

Electromagnetic (EM) absorbers drive the development of EM technology and advanced EM
equipment. The utilization of EM energy conversion of the EM absorber to design a variety of …

Integration of advanced nanogenerator technology with conventional textile processes
fosters the emergence of textile‐based nanogenerators (NGs), which will inevitably promote …

The programmable nature of smart textiles makes them an indispensable part of an
emerging new technology field. Smart textile‐integrated microelectronic systems (STIMES) …

Triboelectric nanogenerator (TENG) technology is a promising research field for energy
harvesting and nanoenergy and nanosystem (NENS) in the aspect of mechanical, electrical …

Smart textiles are composed of multi-structured functional materials capable of producing
sensory responses and energy in response to environmental, chemical and physical stimuli …

Piezoelectric materials and devices have drawn extensive attention for energy harvesting
due to their excellent electromechanical conversion properties. With increasing concerns …

With the increasing potential of smart clothing, the demand for generating energy directly in
the tissue fibers has prompted for increased research in the field of energy harvesters based …