Synergetic effect of triglycine sulfate and graphite nanoplatelets on dielectric and piezoelectric properties of epoxy resin composites

Plyushch, A.; Macutkevic, J.; Samulionis, V.; Banys, J.; Bychanok, D.; Kuzhir, P.; Mathieu, S.; Fierro, V.; Celzard, A.

doi:10.1002/pc.24932

Даты публикации Авторы Заглавия Темы

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Заглавие документа:	Synergetic effect of triglycine sulfate and graphite nanoplatelets on dielectric and piezoelectric properties of epoxy resin composites
Авторы:	Plyushch, A. Macutkevic, J. Samulionis, V. Banys, J. Bychanok, D. Kuzhir, P. Mathieu, S. Fierro, V. Celzard, A.
Тема:	ЭБ БГУ::ЕСТЕСТВЕННЫЕ И ТОЧНЫЕ НАУКИ::Физика
Дата публикации:	2019
Издатель:	John Wiley and Sons Inc.
Библиографическое описание источника:	Polym Compos 2019;40(S2):E1181-E1188.
Аннотация:	Epoxy resin composites with 30 wt% of triglycine sulfate (TGS) and up to 1 wt% of graphite nanoplatelets (GNP) were fabricated and studied by means of broadband dielectric spectroscopy (20 Hz–3 GHz). It was demonstrated that the dielectric properties are mainly governed by the Maxwell-Wagner relaxation at lower frequencies (below 1 MHz) and by diffuse ferroelectric soft mode at higher frequencies (above 1 MHz). The ferroelectric origin of the phase transitions was also confirmed by piezoelectric investigations. Although the phase transition temperature is independent of GNP concentration, the piezoelectric and dielectric (above 1 MHz) properties of composites are strongly improved by GNP in a broad temperature range. This gives evidence for the strong synergy between GNP and ferroelectric particles. The synergy effect appears due to the better distribution of TGS particles in ternary composites and the creation of electric fields by GNP inside the composite. POLYM. COMPOS., 40:E1181–E1188, 2019. © 2018 Society of Plastics Engineers.
URI документа:	https://elib.bsu.by/handle/123456789/262051
DOI документа:	10.1002/pc.24932
Scopus идентификатор документа:	85050376324
Финансовая поддержка:	This work was done with the support of RFBR (grant 17-52- 04077), BRFFR (grant F17RM-068) and H2020 RISE 734164 Graphene 3D. The work was partially supported by the bilateral Program “Russian-German Laboratory at BESSY II” in the part of XPS and NEXAFS measurements. The authors thank Mrs. L. I. Nasonova for the syntheses, Mr. A. V. Ishchenko for the TEM measurements and Dr. I. P. Asanov for the XPS measurement of the undoped sample. We are grateful to Prof. V. A. Osipov and Dr. V. L. Katkov for fruitful discussion. O.V.S., L.G.B., D.S.B., P.P.K., and A.V.O. are thankful for support by Tomsk State University Competitiveness Improvement Program. O.V.S. thanks Scholarship of the President of the Russian Federation (SP-3530.2016.1).
Располагается в коллекциях:	Статьи НИУ «Институт ядерных проблем»

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