Bioelectricity plays a vital role in living organisms. Although electrical stimulation is
introduced in the field of bone regeneration, the concept of a dose–response relationship …

In this work, non-solvent induced phase separation method was applied to develop
polyvinylidene fluoride (PVDF)/graphene oxide (GO) scaffold for nerve tissue engineering …

Bone tissue engineering is an interdisciplinary field where the principles of engineering are
applied on bone-related biochemical reactions. Scaffolds, cells, growth factors, and their …

Piezoelectric polymers are promising energy materials for wearable and implantable
applications for replacing bulky batteries in small and flexible electronics. Therefore, many …

For the first time, electrospun polycaprolactone (PCL) 3D nanofibrous scaffold has been
developed by an innovative and convenient approach (ie, thermally induced nanofiber self …

Modern-day requirements for efficient, eco-friendly, and self-powered devices have resulted
in a growing interest in piezoelectric polymers among the scientific community …

With the increase of interest in the application of piezoelectric polyvinylidene fluoride (PVDF)
in nanogenerators (NGs), sensors, and microdevices, the most efficient and suitable …

Piezoelectricity-based energy harvesting from wasted mechanical energies has garnered an
increasing attention as a clean energy source. Especially, flexible organic piezoelectric …

PVDF nanofibers are prepared using electrospinning. The effect of addition of a hydrated
salt, nickel chloride hexahydrate (NiCl2· 6H2O), on the phase formation is examined …

Biomaterials processed in the form of electrospun fiber mats have already been explored to
mimic different types of extracellular matrix in the human body once human body shows both …