Environmental pollution resulting from fossil fuel consumption and the limited lifespan of
batteries has shifted the focus of energy research towards the adoption of green renewable …

With the rapid development of the Internet of Things, nanogenerator as a green energy
collection technology has attracted great attention in various fields. Specifically, the natural …

Over the past few decades, flexible piezoelectric devices have gained increasing interest
due to their wide applications as wearable sensors and energy harvesters. Poly (vinylidene …

Triboelectric nanogenerator (TENG) manifests distinct advantages such as multiple
structural selectivity, diverse selection of materials, environmental adaptability, low cost, and …

Encountering the consumption of fossil fuels on a large scale and contamination of the
environment due to chemical batteries, along with the rapid growth of various wearable …

A triboelectric nanogenerator (TENG) is a green energy harvester that transforms
mechanical energy from the surroundings and body movements into useful electrical energy …

Advancements in wearable electronics and Internet of Things (IoT) sensors have catalyzed
the need for effective micro‐energy harvesting. Piezoelectric nanogenerators (PENGs) are …

Water and energy shortages are interdependent major worldwide issues that cannot be
disregarded. In this work, graphene and BaTiO3 are used to synergistically facilitate the self …

The rapid progress in science and technology has resulted in substantial growth in the
nanotextiles market and holds promising potential for the future. There is important research …

Polymeric piezoelectrics have been widely applied for energy harvesting applications due to
their rapid processability, mechanical flexibility, and self-poling capability. Besides the …