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Multifaceted PVDF nanofibers in energy, water and sensors: A contemporary review (2018 to 2022) and future perspective

S. Varun, Nitish Manu George, Akash M. Chandran, Lity Alen Varghese, Prasanna Kumar S. Mural

2022Journal of Fluorine Chemistry27 citationsDOIOpen Access PDF

Abstract

A greater interest has been observed in polymeric polyvinylidene fluoride (PVDF) nanofibers, emphasizing applications in the fields of energy generation (nanogenerators), water treatment (ultra-thin filtration membranes) and sensing technologies (wearable electronics). Coupled with intrinsic property traits such as flexible syntheses and wide-ranged dynamic versatility in user applications, research in polymeric material has intensified over the past decade. In the literature, it was observed that the enhancement of the β-phase in PVDF crystals and fibers subsequently improved its electromechanical property. The advent of electrospinning technology provided effective control over the tuning of the β-phase. Thus, enabling functional integration and implementation into a wide variety of applications, particularly in the aforementioned fields. Other significant applications of PVDF nanofibers include real-time health diagnostics, monitoring and self-powered bio-implants. This review aims to provide a commentary from a materials chemistry perspective with a focus on engineering the PVDF material into a suitable crystalline phase. Subsequently, its multifaceted utilization in a renewable and sustainable format in potential applications is discussed.

Topics & Concepts

Polyvinylidene fluorideNanofiberNanotechnologyElectrospinningMaterials scienceWearable computerElectronicsEnergy harvestingPolymerComputer scienceEngineeringElectrical engineeringComposite materialEnergy (signal processing)PhysicsQuantum mechanicsEmbedded systemAdvanced Sensor and Energy Harvesting MaterialsElectrospun Nanofibers in Biomedical ApplicationsConducting polymers and applications
Multifaceted PVDF nanofibers in energy, water and sensors: A contemporary review (2018 to 2022) and future perspective | Litcius