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 …

One of the most major agendas to mitigate climate change is the transition to low-carbon
energy extraction. Furthermore, develo** cutting-edge prototypes for wearable …

Carbon nanotube functional materials (CNTFMs) represent an important research field in
transforming nanoscience and nanotechnology into practical applications, with potential …

Achieving highly efficient self‐powered fibrous sensing systems is desirable for smart
electronic textiles but remains a great challenge. Here, a bifunctional hydrogel is proposed …

Research on wearable electronic devices that can be directly integrated into daily textiles or
clothes has been explosively grown holding great potential for various practical wearable …

Ammonium vanadate with bronze structure (NH4V4O10) is a promising cathode material for
zinc-ion batteries due to its high specific capacity and low cost. However, the extraction of …

Piezoelectric-based wearable electronics promise potential applications in human
physiological monitoring for disease prediction, diagnose and rehabilitation. Still, it is a big …

Multifunctional aqueous rechargeable batteries (MARBs) are regarded as safe, cost‐
effective, and scalable electrochemical energy storage devices, which offer additional …

Flexible and wearable energy storage devices are receiving increasing attention with the
ever‐growing market of wearable electronics. Fiber‐shaped batteries display a unique 1D …

The continuous operation of wearable electronics demands reliable sources of energy,
currently met through Li‐ion batteries and various energy harvesters. These solutions are …