Carbon fiber-reinforced polymers (CFRPs) can be used in aging infrastructures as a
reinforcement because of their excellent mechanical properties, and they can also be used …

Wireless sensor networks are the future development direction for realizing an Internet of
Things society and have been applied in bridges, buildings, spacecraft, and other areas …

The ability to harvest energy from the aircraft body movement like vibration will rapidly
advance the Internet of Things (IoT) for aerospace by supporting power to the IoT sensors …

The integration of piezoelectric materials onto carbon fiber (CF) can add energy harvesting
and self‐power sensing capabilities enabling great potential for “Internet of Things”(IoT) …

Abstract Wearable Internet of Things (IoT) devices for sports require an innovative design of
a self-powered technology that is able to wirelessly transmit and receive the signal (force …

Abstract Piezoelectric Internet of Things (IoT) sensors with energy-harvesting capabilities,
which can convert mechanical energy into electrical energy, promote battery-less systems …

Polymer-based lead-free piezoelectric composites provide environmentally friendly and
scalable space for energy conversion and structural health monitoring. In this paper, multi …

Wireless sensor networks (WSNs) are one of the key factors in realizing an Internet of Things
(IoT) society. Piezoelectric materials that can convert mechanical energy into electric energy …

Piezoelectric composites are a significant research field because of their excellent
mechanical flexibility and sufficient stress-induced voltage. Furthermore, due to the …

High-performance flexible piezoelectric nanogenerators (PNGs) based on composite thin
films comprising amine-functionalized lead zirconate titanate (PZT) nanoparticles (PZT-NH2 …