Improvement of the piezoelectric, thermal, structural properties of PMMA/PVdF-HFP blend composite films using PZT

Abstract: Energy harvesting is the most efficient way to meet energy demand while also supplying renewable energy sources from the environment. This technology consists of the recovery of electrical energy from lost energy sources, which are available everywhere, including heat, fluids, vibrations, etc. In particular, energy harvesting via piezoelectric materials, which are capable of converting the energy of vibrations and mechanical deformations into electrical energy, has been the subject of research in the last deca… Show more

“…Since they can transform mechanical energy into electrical energy via mechanical forces such as pressure and vibration, piezoelectric materials have recently attracted attention [1][2][3] These intelligent materials can be utilized in wearable electronic devices, electromechanical sensors, power systems, and water supply systems. [4] Poly (vinylidene fluoride-co-hexafluoropropylene) (PVDF-HFP) is among the most popular piezoelectric materials, due to its special qualities and advantages, such as non-toxicity, great chemical resistance, excellent thermal stability, flexibility, elevated dielectric permittivity, and rupture resistance.…”

Enhancement of piezoelectric β‐polymorph formation and properties of graphene oxide and PZT‐incorporated in PVDF‐HFP matrix for energy harvesting applications

“…Since they can transform mechanical energy into electrical energy via mechanical forces such as pressure and vibration, piezoelectric materials have recently attracted attention [1][2][3] These intelligent materials can be utilized in wearable electronic devices, electromechanical sensors, power systems, and water supply systems. [4] Poly (vinylidene fluoride-co-hexafluoropropylene) (PVDF-HFP) is among the most popular piezoelectric materials, due to its special qualities and advantages, such as non-toxicity, great chemical resistance, excellent thermal stability, flexibility, elevated dielectric permittivity, and rupture resistance.…”

Enhancement of piezoelectric β‐polymorph formation and properties of graphene oxide and PZT‐incorporated in PVDF‐HFP matrix for energy harvesting applications

“…Within this breathtaking background comes this special issue on materials energy harvesting, conversion, storage, environmental engineering, and sustainability. It addresses several theoretical [1][2] and experimental themes such as microfluidics [3], energy recovery and storage [4][5][6][7][8][9][10][11][12][13], water and corrosion [14][15][16], biosensors [17][18][19] and materials [19][20][21][22][23][24][25][26].…”

Materials for energy harvesting, conversion, storage, environmental engineering and sustainability

Enhancing β-phase and dielectric properties of BCZT lead-free reinforced in PVDF-HFP composite thick films for eco-friendly energy harvesting