Assessing mechanical and stray magnetic field energy harvesting capabilities in lead-free PVDF/BCT-BZT composites integrated with metglas

Pabba, Durga Prasad; Ram, Nayak; Kaarthik, J.; Bhaviripudi, Vijayabhaskara Rao; Yadav, Sandeep Kumar; Soosairaj, Amutha; Pabba, Naveen Kumar; Annapureddy, Venkateswarlu; Thirumurugan, Arun; Panda, H. S.; Aepuru, Radhamanohar

Abstract

The exploration of energy harvesting encompasses a wide array of sources, with a specific focus on recovering mechanical and magnetic energy from overlooked outlets, driving current research endeavours. In this study, we developed highly flexible Magneto-Mechano-Electric (MME) harvesters by combining poly(vinylidene fluoride) (PVDF)/barium calcium zirconium titanate (BCT-BZT) composite films with metglas. The flexible piezoelectric polymer-ceramic composite films were fabricated using a solvent casting technique. The high piezoelectric BCT-BZT fillers were synthesized through a sol-gel reaction route. A thorough analysis was carried out on these composites to evaluate their structural, functional, microstructural, and dielectric properties. The composite film loaded with 20 wt% BCT-BZT filler achieved a 78 % beta-phase with a significant enhancement in the dielectric properties, resulting in a high permittivity similar to 40 and low dielectric loss. Employing these films, we engineered nanogenerators capable of converting mechanical energy into electrical energy, yielding an output voltage of 11 V. Thereafter, to harvest mechanical and stray magnetic fields, we developed a MME generator comprising a magnetic Metglas layer and PVDF-BCT-BZT composite and achieved an output voltage of 3.3 V with a power density of 85 mu W/m(2) when subjected to an AC magnetic field of 5 Oe. Furthermore, the MME generator has demonstrated the ability to charge various capacitors showcasing its potential for usage in self-powered, noncontact, and implantable devices.

Más información

Título según WOS: Assessing mechanical and stray magnetic field energy harvesting capabilities in lead-free PVDF/BCT-BZT composites integrated with metglas
Título de la Revista: CERAMICS INTERNATIONAL
Volumen: 50
Número: 18
Editorial: ELSEVIER SCI LTD
Fecha de publicación: 2024
Página de inicio: 33009
Página final: 33017
DOI:

10.1016/j.ceramint.2024.06.115

Notas: ISI