In the coming era of the internet of things (IoT), wireless sensor networks that monitor, detect,
and gather data will play a crucial role in advancements in public safety, human healthcare …

Energy harvesting technology may be considered an ultimate solution to replace batteries
and provide a long‐term power supply for wireless sensor networks. Looking back into its …

Microelectronics, as indispensable tools in clinics, can monitor physiological signals, treat
diseases, and promote human health. An efficient and uninterrupted energy supply is key to …

For the first time, a composite of ferroelectric antimony sulfoiodide (SbSI) nanowires and non-
ferroelectric titanium dioxide (TiO2) nanoparticles was applied as a pyroelectric …

The low-grade waste heat, which constitutes majority of the total waste heat produced in
industrial sector, is very difficult to be recovered. Pyroelectric materials have recently …

With the recent thriving of low-power electronic microdevices and sensors, the development
of components capable of scavenging environmental energy has become imperative. In this …

Pyroelectric energy harvesting is one of the more recent and promising solid-state
approaches for directly converting time-dependent temperature fluctuations into electric …

Temperature monitoring for energy generation systems plays an important role for the
control of overall safety and efficiency. To run the energy system at optimum operating …

Energy harvesting has drawn increasing attention due to the fast development of wireless
sensors and devices. Most research has been focused on mechanical energy harvesting …

Polyvinylidene fluoride (PVDF)-based materials are the most researched polymers in the
field of energy harvesting. Their production in thin-film form through printing technologies …