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Autori principali: Kujawa, Joanna, Boncel, Slawomir, Gharabli, Samer Al, Koter, Stanislaw, Kedziera, Anna Kaczmarek, Korczeniewski, Emil, Terzyk, Artur P.
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2406.01169
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author Kujawa, Joanna
Boncel, Slawomir
Gharabli, Samer Al
Koter, Stanislaw
Kedziera, Anna Kaczmarek
Korczeniewski, Emil
Terzyk, Artur P.
author_facet Kujawa, Joanna
Boncel, Slawomir
Gharabli, Samer Al
Koter, Stanislaw
Kedziera, Anna Kaczmarek
Korczeniewski, Emil
Terzyk, Artur P.
contents The review unveils the diverse applications of concerted polyvinylidene fluoride (PVDF)-carbon nanomaterial (CNM) systems, spanning from electromagnetic interference shielding, including elimination of 5G-interference, to piezoelectrics and a variety of sensing modalities (breathing, movement, health monitoring, structural integrity assessments, home monitoring, and seismic acceleration). These materials also excel in biomaterials with applications like tactile skin and COVID-preventing facemasks through sunlight sterilization. Moreover, PVDF-CNMs demonstrate excellence in radar absorption, solar-assisted electricity generation, triboelectric energy harvesting, 3D-4D printing materials, anti-icing covers, anti-stealth materials, and heat-dissipating solids in electronics. Across diverse scientific disciplines, the research merges materials chemistry and engineering, yielding materials with multimodal functionalities. The demand for a comprehensive review stems from the need to synthesize insights from fundamental sciences and technologies, capturing the cutting-edge nature of these materials.
format Preprint
id arxiv_https___arxiv_org_abs_2406_01169
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Current and future applications of PVDF-carbon nanomaterials in energy and sensing
Kujawa, Joanna
Boncel, Slawomir
Gharabli, Samer Al
Koter, Stanislaw
Kedziera, Anna Kaczmarek
Korczeniewski, Emil
Terzyk, Artur P.
Chemical Physics
Materials Science
The review unveils the diverse applications of concerted polyvinylidene fluoride (PVDF)-carbon nanomaterial (CNM) systems, spanning from electromagnetic interference shielding, including elimination of 5G-interference, to piezoelectrics and a variety of sensing modalities (breathing, movement, health monitoring, structural integrity assessments, home monitoring, and seismic acceleration). These materials also excel in biomaterials with applications like tactile skin and COVID-preventing facemasks through sunlight sterilization. Moreover, PVDF-CNMs demonstrate excellence in radar absorption, solar-assisted electricity generation, triboelectric energy harvesting, 3D-4D printing materials, anti-icing covers, anti-stealth materials, and heat-dissipating solids in electronics. Across diverse scientific disciplines, the research merges materials chemistry and engineering, yielding materials with multimodal functionalities. The demand for a comprehensive review stems from the need to synthesize insights from fundamental sciences and technologies, capturing the cutting-edge nature of these materials.
title Current and future applications of PVDF-carbon nanomaterials in energy and sensing
topic Chemical Physics
Materials Science
url https://arxiv.org/abs/2406.01169