This paper provides a comprehensive review of the recent progress made in energy
harvesting systems for wearable technology. An energy-harvesting system would be a …

Advances in wireless technologies, low‐power electronics, the internet of things, and in the
domain of connected health are driving innovations in wearable medical devices at a …

Interactive human-machine interface (iHMI) is a bridge connecting human beings and
robots, which has an important requirement for perceiving the change of pressure and …

With the advent of the Internet of Everything (IoE) era, our civilization and future generations
will employ an unimaginable complex array of electronics and sensors in daily life …

Ferroelectric polymers are the most promising electroactive materials with outstanding
properties that can be integrated into a variety of flexible electronic devices. Their …

Piezoelectric materials have long been investigated for their ability to convert mechanical
energy to electrical energy (or vice versa). Piezoelectric polymers, while they may not exhibit …

Wearable devices can be used for monitoring vital physical and physiological signs
remotely, as well as for interacting with computers. Widespread adoption of wearables is …

Sensors are of great importance in different aspects of research and industry. Future sensors
will require high‐efficient and low‐cost manufacturing, as well as high‐performance …

Flexible piezoelectrics realise the conversion between mechanical movements and
electrical power by conformally attaching onto curvilinear surfaces, which are promising for …

Humans generate remarkable quantities of energy while performing daily activities, but this
energy usually dissipates into the environment. Here, we address recent progress in the …