April 24, 2012
Researchers Discover Conductive Self-Assembling Plastic Nanowires
|Image Source: © Graphics: M. Maaloum, ICS (CNRS)|
|French scientists have created highly conducive plastic fibers with a thickness of only a few nanometers that self-assemble when exposed to a flash of light. The tiny fibers could become a cheaper and easier-to-handle alternative to carbon nanotubes and play a role in the development of electronic components on the nanoscale.|
Inexpensive and easy to handle, unlike carbon nanotubes, they combine the advantages of the two materials currently used to conduct electric current: metals and plastic organic polymers.
The research, headed by Nicolas Giuseppone and Bernard Doudin from Centre National de la Recherche Scientifique (CNRS) and the Université de Strasbourg, could have applications in areas ranging from electronics to architecture
Their remarkable electrical properties are similar to those of metals. In addition, they are light and flexible like plastics, which opens up the possibility of meeting one of the most important challenges of the coming decade's electronics: how to miniaturize components down to the nanometer scale.
This work was published on the Nature Chemistry website.
The next step is to demonstrate that these fibers can be industrially integrated within electronic devices such as flexible screens, solar cells, and other implementations.
In previous work published in 2010, Giuseppone and his colleagues succeeded for the first time in obtaining nanowires. To achieve this feat, they chemically modified “triarylamines”, synthetic molecules that have been used for decades by industry in the photocopying processes. Much to their surprise, they observed that in light and in solution, their new molecules stacked up spontaneously in a regular manner to form miniature fibers. These wires, a few hundred nanometers long (1 nm = 10-9 m, i.e. a billionth of a meter), are made up of what is known as the “supramolecular” assembly of several thousand molecules.
In collaboration with Doudin's team, the researchers then studied the electrical properties of these nanofibers in detail. This time, they placed their molecules in contact with an electronic microcircuit comprising gold electrodes spaced 100 nm apart. They then applied an electric field between these electrodes.
Their first important finding was that, when triggered by a flash of light, the fibers self-assemble solely between the electrodes.
The second surprising result was that these structures, which are as light and flexible as plastics, turn out to be capable of transporting extraordinary current densities, above 2.106 Amperes per square centimeter, approaching those of copper wire. In addition, they have very low interface resistance with metals 6: 10,000 times below that of the best organic polymers.
The researchers now hope to demonstrate that their fibers can be used industrially in miniaturized electronic devices such as flexible screens, solar cells, transistors, printed nanocircuits, and more.
SOURCE Nature Chemistry
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Tags: Bernard Doudin, carbon nanotubes, nanotech, nanotechnology, nanowires, plastic nanofibers, triarylamines
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