Broadband dielectric response of silk Fibroin/BaTiO3 composites: Influence of nanoparticle size and concentration
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Otros documentos de la autoría: Costa, C.M.; Reizabal, Ander; Sabater i Serra, Roser; Andrio, Andreu; Pérez-Álvarez, L.; Gomez Ribelles, Jose Luis; Vilas, Jose Luis; lanceros-mendez, senentxu
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https://doi.org/10.1016/j.compscitech.2021.108927 |
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Título
Broadband dielectric response of silk Fibroin/BaTiO3 composites: Influence of nanoparticle size and concentrationAutoría
Fecha de publicación
2021-06-19Editor
ElsevierCita bibliográfica
COSTA, C. M., et al. Broadband Dielectric Response of Silk Fibroin/BaTiO3 Composites: Influence of Nanoparticle Size and Concentration. Composites Science and Technology, 2021, p. 108927.Tipo de documento
info:eu-repo/semantics/articleVersión
info:eu-repo/semantics/publishedVersionPalabras clave / Materias
Resumen
In order to advance towards more sustainable electronics generation, natural polymers with tailored dielectric response are essential. In this search, the combination of bio-based materials with active fillers in ... [+]
In order to advance towards more sustainable electronics generation, natural polymers with tailored dielectric response are essential. In this search, the combination of bio-based materials with active fillers in composite form, suppose one of the most viable alternatives. To achieve it, this work has explored the ability to control dielectric response of Silk Fibroin, a protein polymer by its combination with ceramic barium titanate (BaTiO3) nanoparticles. Both the effect of filler concentration (0, 5, 10, 20 and 40 wt%) and size (100 and 200 nm) has been studied in composites processed by easily scalable techniques. Samples with a homogeneous distribution of nanoparticles have been obtained. Dielectric relaxation processes assessed by broadband dielectric relaxation spectroscopy (BDS) in wide frequency (0.1 Hz–1 MHz) and temperature ranges (- 40 to 220 °C), revealed a dielectric constant increasing with filler content and decreasing with filler size, ranging from 4.4 for SF up to 142 for the SF/BaTiO3 composite with 40 wt %, at room temperature and 1 kHz. Two relaxations processes are observed, the β-relaxation and the conductivity relaxation, both with temperature-dependent behaviour. The activation energy of the conductivity process decreases with increasing nanoparticle content and decreasing size. A Maxwell-Wagner-Sillar process related to the interface between the silk fibroin matrix and the BaTiO3 nanoparticles was also identified. [-]
Publicado en
Composites Science and Technology, Vol. 213, September 2021Entidad financiadora
Fundação para a Ciência e Tecnologia (FCT), Portugal | Spanish Ministry of Science and Innovation (MCINN, Agencia Estatal de Investigación) | Basque Government Industry and Education Departments (ELKARTEK, HAZITEK and PIBA) | Instituto de Salud Carlos III | European Regional Development Fund.
Código del proyecto o subvención
UID/FIS/04650/2019 | UID/EEA/04436/2019 | PTDC/FIS-MAC/28157/2017 | SFRH/BPD/112547/2015 | Contract 2020.04028.CEECIND (C.M.C.) | RTI2018-097862-B-C21 | MAT2016-76039-C4-3-R | PIBA-2018-06
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© 2021 Elsevier Ltd. All rights reserved.
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