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Press Release
An
electrifying topic - polymer foams
as charge carriers
A research team in Austria has been unravelling the secrets of the charging
of plastic foams. Its findings open the way for the development of flat
microphones and loudspeakers, as well as "smart" surfaces that
could be used as floor coverings, among other things. The interest in
the success of the group's work - which was co-funded by the Austrian
Science Fund (FWF) - has resulted in the integration of the project in
a European interdisciplinary research network.
During a thunder storm the electrical tension between the earth and the
air is discharged by the lightning and hence lowered. In non-polar polymer
foams a comparable process results in the precise opposite - an increase
in the electrical charge. First, an electric discharge is induced in the
microscopic voids (pores) in foamed plastics by applying an external voltage.
The propagation of the discharge is then inhibited by the insulating properties
of the polymer foam, resulting in charging of the pore walls. As the non-polar
material is non-conductive, the charge is stored there. A team under Prof.
Siegfried Bauer at the Johannes Kepler University Linz Institute for Experimental
Physics has succeeded in proving the existence of this phenomenon. In
so doing it has challenged established scientific doctrine which holds
that such states can only exist in polar materials.
Pores with potential
The opposing positive and negative poles in the pores of the foam create
an electrical potential. If the charged polymers are compressed, the gap
between the two poles in the pore walls narrows, exciting an electrical
signal. The transformation of pressure into an electrical signal that
can be amplified and modulated enables polymers to be used as sensors,
e.g. for "intelligent" floor coverings that "report"
falls at senior citizens' homes.
Changes in air pressure (acoustic oscillations) can also be converted
into electrical signals in this way. As the polymers are easy to make
and can be varied in many ways, they hold out the prospect for the development
of inexpensive, high-quality flat microphones and loudspeakers. Identifying
suitable materials was one of the aims of the project.
Nomen est omen
In the course of the project the team succeeded in describing an unexpected
property of the plastic foams it was using: patterned charging is possible,
and the polarity in the pores can thus be switched. As these are the first
known materials to combine this property with an ability to store charges,
Prof. Bauer created the new term "ferroelectret" to describe
them. "What makes ferromagnets important is the fact that their polarity
can be switched", Bauer explained. "Materials that store charges
are referred to as 'electrets'. The term coined by us for these polymer
foams refers to their ability to combine these two characteristics."
Europe in the lead
The international significance of the ferroelectrets is reflected in the
research collaborations in which the Linz group is involved. During the
project cooperation agreements were concluded with universities in Darmstadt,
Potsdam (Ger) and Tampere (Fi). "Today", said Bauer, "we
are part of a pan-European network that also includes a number of firms."
The global importance of this alliance will be reflected next October
when ferroelectrets will be a topic at an international symposium held
by America's Institute of Electrical and Electronics Engineers (IEEE).
The discovery and the team responsible for it will be the subject of an
invited lecture. This recognition is proof of the global lead enjoyed
by the project, and the new European network of experimental physicists,
engineers and materials scientists that FWF funding helped establish.
Contact:
Univ.-Prof. Dr. Siegfried Bauer
Soft-Matter Physics
Johannes Kepler University Linz
Altenberger Str. 69
A-4040 Linz
T +43/732/2468-9241
E sbauer@jku.at
This release by:
PR&D - Public Relations for Research & Development
Goldschmiedgasse 10/3
A-1010 Wien
T +43/1/5057044
E contact@prd.at
Vienna, August 4, 2003
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