Bioelectricity provides electrostimulation to regulate cell/tissue behaviors and functions. In
the human body, bioelectricity can be generated in electromechanically responsive tissues …

A great progress has been made in the field of energy harvesting over the past few years to
meet the ever-increasing desire of portable, sustainable and renewable energies …

A great deal of research work on sustainable and renewable energies is carried out to
satisfy the incremental requirement for miniature, uninterrupted and self-reliant power …

Paper is a ubiquitous material that has various applications in day to day life. A sheet of
paper is produced by pressing moist wood cellulose fibers together. Paper offers unique …

Piezoelectric thin films offer a number of advantages in various applications, such as high
energy density harvesters, a wide dynamic range, and high sensitivity sensors, as well as …

A novel, simple, cost-effective, and scalable technique was developed to fabricate high-
performance flexible piezoelectric nanogenerators (NGs) using porous cellulose nanofibril …

A flexible hybrid piezoelectric generator (HPG) based on native cellulose microfiber (NCMF)
and polydimethylsiloxane (PDMS) with multi wall carbon nanotubes (MWCNTs) as …

Electromechanical coupling properties of biological materials, especially cellulose from
plant cell walls and proteins from animals, are of great interest for applications in …

The energy harvesting technology based on piezoelectricity promises to achieve a self-
powered mode for portable medical electronic devices. Piezoelectric materials, as crucial …

Piezoelectric nanogenerators (PNGs) have recently received significant attention because of
their great potential for harvesting electricity from wasted mechanical energy resources. In …