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Physicists discover material for a more efficient energy storage

Experiment confirms predictions

Date:
December 17, 2015
Source:
University of Luxembourg
Summary:
Predictions of physicists recently lead to the discovery of a material with special electric properties which engages the interest of plastics producing industry.
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Predictions of physicists of the University of Luxembourg recently lead to the discovery of a material with special electric properties which engages the interest of plastics producing industry. Three years ago, physicists from Luxembourg had theoretically predicted the unusual characteristics of a particular composite material. These calculations could now be confirmed by experiment in cooperation with the "Centre de Recherche Paul Pascal" in Bordeaux, France, and resulted in the discovery of a so-called high-k-material, which might enable the production of better energy storage devices -- the basis for smaller, faster and more efficient electronics.

The earlier calculations made by the team around Tanja Schilling, professor of physics at the University of Luxembourg, were at first rather bad news for the field of materials research: they indicated that certain compound materials made of polymers and flaky graphene, unlike those made of polymers and carbon nanotubes, did not increase the conductivity of the material to the degree that was generally expected until then. It was a surprising conclusion at the time which questioned the use of graphene in order to increase conductivity.

This prediction, however, now lead to a highly promising discovery: the effect that put the conductivity of the plastics-graphene-compound into question, causes it to have remarkable dielectric properties. This means that one can generate a strong electric field inside of it -- the fundamental property for the production of efficient capacitors. These are tiny components that can store energy statically and occur in almost all electronic devices, where they act as voltage regulators or information storage, among other things. Computers, for example, contain billions of those.

"Materials with a high dielectric constant, so-called high-k-materials, are highly sought after," says Tanja Schilling, head of the research project at the Faculty of Science, Technology and Communication of the University of Luxembourg. "The discovery based on our predictions was now published in the renowned journal Nature Communications -- which we are very happy about."

The special dielectric properties of the compound material occur as a result of its liquid crystal properties impeding the arrangement of the graphene flakes into a conducting structure. So when there is an electric current, it does not flow directly through the compound, but instead generates a strong electric field. While in other compound materials the current permeable effect is the dominant one, the Luxembourg physicists could demonstrate mathematically that, in this case, the liquid crystal properties play the major role and are responsible for the unexpected electric properties.

The chemicals company Solvay, partner of the research project, now wants to continue the research around this new high-k-material, aiming to produce synthetics for particularly efficient capacitors and further applications in the future.


Story Source:

Materials provided by University of Luxembourg. Note: Content may be edited for style and length.


Journal Reference:

  1. Jinkai Yuan, Alan Luna, Wilfrid Neri, Cécile Zakri, Tanja Schilling, Annie Colin, Philippe Poulin. Graphene liquid crystal retarded percolation for new high-k materials. Nature Communications, 2015; 6: 8700 DOI: 10.1038/ncomms9700

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University of Luxembourg. "Physicists discover material for a more efficient energy storage." ScienceDaily. ScienceDaily, 17 December 2015. <www.sciencedaily.com/releases/2015/12/151217143355.htm>.
University of Luxembourg. (2015, December 17). Physicists discover material for a more efficient energy storage. ScienceDaily. Retrieved March 28, 2024 from www.sciencedaily.com/releases/2015/12/151217143355.htm
University of Luxembourg. "Physicists discover material for a more efficient energy storage." ScienceDaily. www.sciencedaily.com/releases/2015/12/151217143355.htm (accessed March 28, 2024).

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