Flexible nanogenerators that efficiently convert mechanical energy into electrical energy
have been extensively studied because of their great potential for driving low‐power …

In the past century, ferroelectrics are well known in electroceramics and microelectronics for
their unique ferroelectric, piezoelectric, pyroelectric, and photovoltaic effects. Nowadays, the …

We demonstrate a new flexible multilayered triboelectric nanogenerator (TENG) with
extremely low cost, simple structure, small size (3.8 cm× 3.8 cm× 0.95 cm) and lightweight (7 …

Using an Al‐foil of thickness≈ 18 μm as a substrate and electrode, a piezoelectric
nanogenerator (NG) that is super‐flexible in responding to the wavy motion of a very light …

A flexible, transparent acoustic actuator and nanogenerator based on graphene/P (VDF-
TrFE)/graphene multilayer film is demonstrated. P (VDF-TrFE) is used as an effective doping …

Ultrathin piezoelectric nanogenerator (NG) with a total thickness of≈ 16 μm is fabricated as
an active or self‐powered sensor for monitoring local deformation on a human skin. The NG …

Based upon the energy-conversion by a nanostructured material's piezoelectricity, the
piezoelectric nanogenerator (NG) is a nanoscale power generator that transforms ambient …

The integrated nanogenerator (NG) based on vertical nanowire (NW) arrays is one of the
dominant designs developed to harvest mechanical energy using piezoelectric …

Flexible electronic devices are regarded as one of the key technologies in wearable
healthcare systems, wireless communications and smart personal electronics. For the …

There is abundance of lost mechanical energy that can be harvested and recycled from our
living environment. Here we developed a pendulum motion based triboelectric …