Liquid crystalline polymer nanocomposites reinforced with in-situ reduced graphene oxide

Liquid crystalline polymer nanocomposites reinforced with in-situ reduced graphene oxide

In this work liquid-crystalline polymer (LCP) nanocomposites reinforced with in-situ reduced graphene oxide are investigated. Graphene oxide (GO) was first synthesized by the Hummers method, and the kinetics of its thermal reduction was assessed. GO layers were then homogeneously dispersed in a ther...

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Main Authors: D. Pedrazzoli, A. Dorigato, T. Conti, L. Vanzetti, M. Bersani, A. Pegoretti
Format: Article
Language:English
Published: Budapest University of Technology 2015-08-01
Series:eXPRESS Polymer Letters
Subjects:
Nanocomposites
Mechanical properties
Liquid-crystalline polymer
Online Access:http://www.expresspolymlett.com/letolt.php?file=EPL-0005975&mi=cd
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spelling doaj-368d824cbb0b41f7b5a3d4d2312c67292020-11-24T20:59:38ZengBudapest University of Technology eXPRESS Polymer Letters1788-618X2015-08-019870972010.3144/expresspolymlett.2015.66Liquid crystalline polymer nanocomposites reinforced with in-situ reduced graphene oxideD. PedrazzoliA. DorigatoT. ContiL. VanzettiM. BersaniA. PegorettiIn this work liquid-crystalline polymer (LCP) nanocomposites reinforced with in-situ reduced graphene oxide are investigated. Graphene oxide (GO) was first synthesized by the Hummers method, and the kinetics of its thermal reduction was assessed. GO layers were then homogeneously dispersed in a thermotropic liquid crystalline polymer matrix (Vectran®), and an in-situ thermal reduction of GO into reduced graphene oxide (rGO) was performed. Even at low rGO amount, the resulting nanocomposites exhibited an enhancement of both the mechanical properties and the thermal stability. Improvements of the creep stability and of the thermo-mechanical behavior were also observed upon nanofiller incorporation. Furthermore, in-situ thermal reduction of the insulating GO into the more electrically conductive rGO led to an important surface resistivity decrease in the nanofilled samples.http://www.expresspolymlett.com/letolt.php?file=EPL-0005975&mi=cdNanocompositesMechanical propertiesLiquid-crystalline polymer
collection DOAJ
language English
format Article
sources DOAJ
author D. Pedrazzoli
A. Dorigato
T. Conti
L. Vanzetti
M. Bersani
A. Pegoretti
spellingShingle D. Pedrazzoli
A. Dorigato
T. Conti
L. Vanzetti
M. Bersani
A. Pegoretti
Liquid crystalline polymer nanocomposites reinforced with in-situ reduced graphene oxide
eXPRESS Polymer Letters
Nanocomposites
Mechanical properties
Liquid-crystalline polymer
author_facet D. Pedrazzoli
A. Dorigato
T. Conti
L. Vanzetti
M. Bersani
A. Pegoretti
author_sort D. Pedrazzoli
title Liquid crystalline polymer nanocomposites reinforced with in-situ reduced graphene oxide
title_short Liquid crystalline polymer nanocomposites reinforced with in-situ reduced graphene oxide
title_full Liquid crystalline polymer nanocomposites reinforced with in-situ reduced graphene oxide
title_fullStr Liquid crystalline polymer nanocomposites reinforced with in-situ reduced graphene oxide
title_full_unstemmed Liquid crystalline polymer nanocomposites reinforced with in-situ reduced graphene oxide
title_sort liquid crystalline polymer nanocomposites reinforced with in-situ reduced graphene oxide
publisher Budapest University of Technology
series eXPRESS Polymer Letters
issn 1788-618X
publishDate 2015-08-01
description In this work liquid-crystalline polymer (LCP) nanocomposites reinforced with in-situ reduced graphene oxide are investigated. Graphene oxide (GO) was first synthesized by the Hummers method, and the kinetics of its thermal reduction was assessed. GO layers were then homogeneously dispersed in a thermotropic liquid crystalline polymer matrix (Vectran®), and an in-situ thermal reduction of GO into reduced graphene oxide (rGO) was performed. Even at low rGO amount, the resulting nanocomposites exhibited an enhancement of both the mechanical properties and the thermal stability. Improvements of the creep stability and of the thermo-mechanical behavior were also observed upon nanofiller incorporation. Furthermore, in-situ thermal reduction of the insulating GO into the more electrically conductive rGO led to an important surface resistivity decrease in the nanofilled samples.
topic Nanocomposites
Mechanical properties
Liquid-crystalline polymer
url http://www.expresspolymlett.com/letolt.php?file=EPL-0005975&mi=cd
work_keys_str_mv AT dpedrazzoli liquidcrystallinepolymernanocompositesreinforcedwithinsitureducedgrapheneoxide
AT adorigato liquidcrystallinepolymernanocompositesreinforcedwithinsitureducedgrapheneoxide
AT tconti liquidcrystallinepolymernanocompositesreinforcedwithinsitureducedgrapheneoxide
AT lvanzetti liquidcrystallinepolymernanocompositesreinforcedwithinsitureducedgrapheneoxide
AT mbersani liquidcrystallinepolymernanocompositesreinforcedwithinsitureducedgrapheneoxide
AT apegoretti liquidcrystallinepolymernanocompositesreinforcedwithinsitureducedgrapheneoxide
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