The last decade has witnessed significant advances in energy harvesting technologies as a
possible alternative to provide a continuous power supply for small, low-power devices in …

Nowadays, the human body is gradually digitized by various wearable and implantable
electronics. The establishment of a sustainable wireless internet of thing (IoT) sensory …

The emergence of human-motion-based energy harvesters is a reflection of the need to
develop future energy supplies for small-scale human-motion-based self-powered and self …

With the growing number of deployments of Internet of Things (IoT) infrastructure for a wide
variety of applications, the battery maintenance has become a major limitation for the …

Wearable and mobile devices, such as smartphones, smartwatches, wearable medical
devices, etc., have become an important part of our daily life. Most of these devices are …

Wireless sensor networks (WSNs) have aroused the conspectus attention of scholars due to
their extensive deployment in the emerging fields of the Internet of Things (IoT's) and self …

Over the last 30 years, the study of ferroelectric oxides has been revolutionized by the
implementation of epitaxial‐thin‐film‐based studies, which have driven many advances in …

Used for thermal energy harvesting, thermoelectric generator (TEG) can convert heat into
electricity directly. Structurally, the main part of TEG is the thermopile, which consists of …

Piezoelectric nanogenerator (PENG) was first introduced by using piezoelectric nanowires
for converting tiny mechanical energy into electric power. 1 Research in nanogenerators has …

The Internet of Things (IoT) has important applications in our daily lives, including health and
fitness tracking, environmental monitoring, and transportation. However, sensor nodes in IoT …