The advancement of the Internet of Things/5G infrastructure requires a low‐cost ubiquitous
sensory network to realize an autonomous system for information collection and processing …

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

The seamless integration of emerging triboelectric nanogenerator (TENG) technology with
traditional wearable textile materials has given birth to the next‐generation smart textiles, ie …

Autonomous robots comprise actuation, energy, sensory and control systems built from
materials and structures that are not necessarily designed and integrated for …

The past few years have witnessed the significant impacts of wearable electronics/photonics
on various aspects of our daily life, for example, healthcare monitoring and treatment …

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 …

The last decade has witnessed significant advances in energy harvesting technology for the
realization of self-charging electronics and self-powered wireless sensor nodes (WSNs). To …

Semiconductors with multiple anions currently provide a new materials platform from which
improved functionality emerges, posing new challenges and opportunities in material …

This article provides a comprehensive overview of piezo‐and ferro‐electric materials based
on organic molecules and organic–inorganic hybrids for mechanical energy harvesting …

Single‐atom materials (SAMs) have become one of the most important power sources to
push the field of energy conversion forward. Among the main types of energy, including …