Explosive percolation yields highly-conductive polymer nanocomposites

Electrical conductivity of segregated network polymer nanocomposites

Kim, Yeon Seok

June 2009

A set of experiments was designed and performed to gain a fundamental understanding of various aspec...

Melt-Mixed 3D Hierarchical Graphene/Polypropylene Nanocomposites with Low Electrical Percolation Threshold

Gkourmpis, Thomas
Gaska, Karolina
Tranchida, Davide
Gitsas, Antonis
M\ufcller, Christian
Matic, Aleksandar
K\ue1d\ue1r, Roland

January 2019

Graphene-based materials are a family of carbonaceous structures that can be produced using a variet...

Thermally conductive composites

Regev, Oren

November 2015

The rapidly increasing device densities in electronics calls for efficient thermal management. If su...

Explosive percolation yields highly-conductive polymer nanocomposites

Meloni, M.
Large, M. J.
González Domínguez, J. M.
Victor-Román, S.
Fratta, G.
Istif, E.
Tomes, O.
Salvage, J. P.
Ewels, C. P.
Peláez-Fernandez, M.
Arenal, R.
Benito, A.
Maser, W. K.
King, A. A. K.
Ajayan, P. M.
Ogilvie, S. P.
Dalton, A. B.

January 2022

Explosive percolation is an experimentally-elusive phenomenon where network connectivity coincides w...

Research Data for paper: Explosive percolation yields highly conductive nanocomposites

Matthew Large (4467427)
Sean Ogilvie (4466878)

November 2022

Data for paper published in Nature Communications 11/11/2022 This dataset comprises all numerical re...

Electrical and mechanical percolation in graphene-latex nanocomposites

Noël, Amélie
Faucheu, Jenny
Chenal, J.-M.
Viricelle, Jean-Paul
Bourgeat-Lami, Elodie

September 2014

International audienceConductive composites based on few layer graphene are of primary interests. In...

On the nano-filler percolation network in polymer nanocomposites

Lu, Chungsheng

January 2010

With addition of very low loading of high-aspect-ratio nano-fillers in polymers, the physical proper...

Manipulating the percolation threshold of carbon nanotubes in polymeric composites

Hermant, M.C.

January 2009

The latex-based technique to introduce carbon nanotubes (CNTs) into polymers has shown to be highly ...

Synergistic effect in conductive networks constructed with carbon nanofillers in different dimensions

Zhang, S.M.
Lin, L.
Deng, H.
Gao, X.
Bilotti, E.
Peijs, A.A.J.M.
Zhang, Q.
Fu, Q.

January 2012

Herein, investigation on synergistic effect during network formation for conductive network construc...

Controlled Structure Evolution of Graphene Networks in Polymer Composites

Boothroyd, S.C.
Johnson, D.W.
Weir, M.P.
Reynolds, C.D.
Hart, J.M.
Smith, A.J.
Clarke, N.
Thompson, R.L.
Coleman, K.S.

March 2018

Exploiting graphene's exceptional physical properties in polymer composites is a significant challen...

Continuum percolation of polydisperse nanofillers

Otten, R.H.J.
Schoot, van der, P.P.A.M.

January 2009

We show that a generalized connectedness percolation theory can be made tractable for a large class ...

Electrical behavior of a graphene/PEKK and carbon black/PEKK nanocomposites in the vicinity of the percolation threshold

Bessaguet, Camille
Dantras, Eric
Michon, Guilhem
Chevalier, Mathieu
Laffont, Lydia
Lacabanne, Colette

May 2019

Graphene and carbon black have been dispersed in a high performance thermoplastic polymer, the poly(...

Polymer processing influence on the double electrical percolation threshold in PLA/PCL/GNP nanocomposites

Masarra, Nour-Alhoda
Quantin, J.-C
Batistella, Marcos
El Hage, R
Pucci, Monica Francesca
Ravel, Romain
Lopez-Cuesta, J.

June 2022

International audienceConductive fillers such as graphene are able to increase the electrical conduc...

Electrical percolation in graphene-polymer composites

Marsden, A. J.
Papageorgiou, D. G.
Vall\ue9s, C.
Liscio, A.
Palermo, Vincenzo
Bissett, M. A.
Young, R. J.
Kinloch, I. A.

January 2018

Electrically conductive composites comprising polymers and graphene are extremely versatile and have...

Compression-induced electrical percolation and enhanced mechanical properties of polydimethylsiloxane-based nanocomposites

Wu, D.
Li, Z.
Du, Y.
Zhang, L.
Huang, Y.
Sun, J.
Coates, Philip D.
Gao, X.

January 2021

YesIn this work, a compression-induced percolation threshold was found when the thickness of polydim...

Electrical conductivity of segregated network polymer nanocomposites

Kim, Yeon Seok

June 2009

A set of experiments was designed and performed to gain a fundamental understanding of various aspec...

Melt-Mixed 3D Hierarchical Graphene/Polypropylene Nanocomposites with Low Electrical Percolation Threshold

Gkourmpis, Thomas
Gaska, Karolina
Tranchida, Davide
Gitsas, Antonis
M\ufcller, Christian
Matic, Aleksandar
K\ue1d\ue1r, Roland

January 2019

Graphene-based materials are a family of carbonaceous structures that can be produced using a variet...

Thermally conductive composites

Regev, Oren

November 2015

The rapidly increasing device densities in electronics calls for efficient thermal management. If su...

Explosive percolation yields highly-conductive polymer nanocomposites

Meloni, M.
Large, M. J.
González Domínguez, J. M.
Victor-Román, S.
Fratta, G.
Istif, E.
Tomes, O.
Salvage, J. P.
Ewels, C. P.
Peláez-Fernandez, M.
Arenal, R.
Benito, A.
Maser, W. K.
King, A. A. K.
Ajayan, P. M.
Ogilvie, S. P.
Dalton, A. B.

January 2022

Explosive percolation is an experimentally-elusive phenomenon where network connectivity coincides w...

Research Data for paper: Explosive percolation yields highly conductive nanocomposites

Matthew Large (4467427)
Sean Ogilvie (4466878)

November 2022

Data for paper published in Nature Communications 11/11/2022 This dataset comprises all numerical re...

Electrical and mechanical percolation in graphene-latex nanocomposites

Noël, Amélie
Faucheu, Jenny
Chenal, J.-M.
Viricelle, Jean-Paul
Bourgeat-Lami, Elodie

September 2014

International audienceConductive composites based on few layer graphene are of primary interests. In...

On the nano-filler percolation network in polymer nanocomposites

Lu, Chungsheng

January 2010

With addition of very low loading of high-aspect-ratio nano-fillers in polymers, the physical proper...

Manipulating the percolation threshold of carbon nanotubes in polymeric composites

Hermant, M.C.

January 2009

The latex-based technique to introduce carbon nanotubes (CNTs) into polymers has shown to be highly ...

Synergistic effect in conductive networks constructed with carbon nanofillers in different dimensions

Zhang, S.M.
Lin, L.
Deng, H.
Gao, X.
Bilotti, E.
Peijs, A.A.J.M.
Zhang, Q.
Fu, Q.

January 2012

Herein, investigation on synergistic effect during network formation for conductive network construc...

Controlled Structure Evolution of Graphene Networks in Polymer Composites

Boothroyd, S.C.
Johnson, D.W.
Weir, M.P.
Reynolds, C.D.
Hart, J.M.
Smith, A.J.
Clarke, N.
Thompson, R.L.
Coleman, K.S.

March 2018

Exploiting graphene's exceptional physical properties in polymer composites is a significant challen...

Continuum percolation of polydisperse nanofillers

Otten, R.H.J.
Schoot, van der, P.P.A.M.

January 2009

We show that a generalized connectedness percolation theory can be made tractable for a large class ...

Electrical behavior of a graphene/PEKK and carbon black/PEKK nanocomposites in the vicinity of the percolation threshold

Bessaguet, Camille
Dantras, Eric
Michon, Guilhem
Chevalier, Mathieu
Laffont, Lydia
Lacabanne, Colette

May 2019

Graphene and carbon black have been dispersed in a high performance thermoplastic polymer, the poly(...

Polymer processing influence on the double electrical percolation threshold in PLA/PCL/GNP nanocomposites

Masarra, Nour-Alhoda
Quantin, J.-C
Batistella, Marcos
El Hage, R
Pucci, Monica Francesca
Ravel, Romain
Lopez-Cuesta, J.

June 2022

International audienceConductive fillers such as graphene are able to increase the electrical conduc...

Electrical percolation in graphene-polymer composites

Marsden, A. J.
Papageorgiou, D. G.
Vall\ue9s, C.
Liscio, A.
Palermo, Vincenzo
Bissett, M. A.
Young, R. J.
Kinloch, I. A.

January 2018

Electrically conductive composites comprising polymers and graphene are extremely versatile and have...

Compression-induced electrical percolation and enhanced mechanical properties of polydimethylsiloxane-based nanocomposites

Wu, D.
Li, Z.
Du, Y.
Zhang, L.
Huang, Y.
Sun, J.
Coates, Philip D.
Gao, X.

January 2021

YesIn this work, a compression-induced percolation threshold was found when the thickness of polydim...

Electrical conductivity of segregated network polymer nanocomposites

Kim, Yeon Seok

June 2009

A set of experiments was designed and performed to gain a fundamental understanding of various aspec...

Melt-Mixed 3D Hierarchical Graphene/Polypropylene Nanocomposites with Low Electrical Percolation Threshold

Gkourmpis, Thomas
Gaska, Karolina
Tranchida, Davide
Gitsas, Antonis
M\ufcller, Christian
Matic, Aleksandar
K\ue1d\ue1r, Roland

January 2019

Graphene-based materials are a family of carbonaceous structures that can be produced using a variet...

Thermally conductive composites

Regev, Oren

November 2015

The rapidly increasing device densities in electronics calls for efficient thermal management. If su...

Explosive percolation yields highly-conductive polymer nanocomposites

Abstract

Extracted data

Explosive percolation yields highly-conductive polymer nanocomposites

Abstract

Extracted data

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