Raquel Verdejo scite author profile

Graphene has attracted the attention of a growing number of scientists from several disciplines due to its remarkable physical properties and chemical functionalisation capabilities. This review presents an overview of graphene/polymer nanocomposites discussing preparation, properties and potential applications. The challenges and outlook of these emerging polymer nanocomposites are also discussed.

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Multifunctional nanostructured PLA materials for packaging and tissue engineering

Armentano

Bitinis

Fortunati

et al. 2013

Progress in Polymer Science

549

332

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Increasing the performance of dielectric elastomer actuators: A review from the materials perspective

Romasanta

López–Manchado

Verdejo

2015

Progress in Polymer Science

387

265

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Electro-active polymers (EAP) are emerging as feasible materials to mimic muscle-like actuation. Among EAPs, dielectric elastomer (DE) devices are soft or flexible capacitors, composed of a thin elastomeric membrane sandwiched between two compliant electrodes, that are able to transduce electrical to mechanical energy, actuators, and vice versa, generators. Initial studies concentrated mainly on dielectric elastomer actuators (DEAs) and identified the electro-mechanical principles and material requirements for an optimal performance. Those requirements include the need for polymers with high dielectric permittivity and stretchability and low dielectric loss and viscoelastic damping. Hence, attaining elastomeric materials with those features is the focus of current research developments. This review provides a systematic overview of such research, highlighting the advances, challenges and future applications of DEAs.

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Functionalized graphene sheet filled silicone foam nanocomposites

et al. 2008

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In this article we report the successful manufacture of a novel functionalized graphene sheet (FGS)/ silicone porous nanocomposite. Both the cellular microstructure and the properties of the porous nanocomposite were investigated in detail. The thermal properties show great stability and heat dissipation efficiency, highlighting their potential in applications with intense thermal requirements. Additionally, compression measurements indicate that there was a favourable interaction between the graphene nanosheets and the polymer.

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Enhanced acoustic damping in flexible polyurethane foams filled with carbon nanotubes

Verdejo

Stämpfli

Álvarez-Láinez

et al. 2009

Composites Science and Technology

279

205

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Evolution of self-healing elastomers, from extrinsic to combined intrinsic mechanisms: a review

et al. 2020

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Graphene materials with different structures prepared from the same graphite by the Hummers and Brodie methods

Botas

Álvarez

Blanco

et al. 2013

Carbon

361

174

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Graphene materials containing different functional groups were prepared from a natural graphite, by means of two different oxidation methods (Hummers and Brodie). It was observed that the differences in the structure of the resultant graphite oxides (GOs) greatly affect the structure of the graphenes resulting from their thermal exfoliation/reduction. Although the oxidation of the graphite was more effective with the modified Hummers method than with Brodie´s method (C/O of 1.8 vs 2.9, as determined by XPS), the former generated a lower residual oxygen content after thermal exfoliation/reduction and a better reconstruction of the 2D graphene structure (with fewer defects). This is explained by the presence of conjugated epoxy and hydroxyl groups in the GO obtained by Brodie´s method, which upon thermal treatment, lead to the incorporation of oxygen into the carbon lattice preventing its complete restoration. Additionally, graphene materials obtained with Brodie´s method exhibit, in general, a smaller sheet size and larger surface area.

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Recent Advances in Clay/Polymer Nanocomposites

et al. 2011

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Smectite clays (e.g. montmorillonite), belonging to the structural family called 2:1 phyllosilicates, are the main choice for designing polymer nanocomposites due to their low cost and rich intercalation chemistry allowing them to be chemically modified (organoclays) and to improve the compatibility with the polymer matrix. These hybrid materials, normally called polymeric nanocomposites (PNC), represent a radical alternative to conventional polymer composites and have focused the attention of both academia and industry because of their unexpected properties, and their straightforward synthesis and processing. Such materials on the nanoscale level show significant improvements in mechanical properties, heat distortion temperatures, thermal stability, flame retardancy and enhanced barrier properties. The combination of enhanced properties, weight reduction, and low cost has led to interesting commercial applications such as automotive and packaging, among others. All this justifies the growing interest of both academia and industry in the development of these hybrid materials. In this paper we describe the most significant findings in the clay/polymer nanocomposites field considering three polymer families: elastomers, thermosets and polymers from natural resources or biopolymers.

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Raquel Verdejo

Graphene filled polymer nanocomposites

Multifunctional nanostructured PLA materials for packaging and tissue engineering

Increasing the performance of dielectric elastomer actuators: A review from the materials perspective

Functionalized graphene sheet filled silicone foam nanocomposites

Enhanced acoustic damping in flexible polyurethane foams filled with carbon nanotubes

Evolution of self-healing elastomers, from extrinsic to combined intrinsic mechanisms: a review

Graphene materials with different structures prepared from the same graphite by the Hummers and Brodie methods

Recent Advances in Clay/Polymer Nanocomposites

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