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RSS Source: scenta The future could be filled with T-shirts that light up or beach umbrellas that collect solar energy to run portable televisions, if new organic semiconductor technology comes into play. Blue LED Cornell University researchers have developed a new type of organic semiconductor device that shows electroluminescence and acts as a photovoltaic cell. The device uses, what is called, an ionic junction,' which the scientists say could lead to improvements in LEDs - as organic semiconductors can be made in thin, flexible sheets, they could potentially create displays on cloth or paper. "Flexible means low-cost fabrication," said George Malliaras, Cornell associate professor of materials science and engineering, in whose laboratory the research was done. And that means another result of the research could be mass-produced, inexpensive solar cells. The Cornell researchers made a diode out of organic semiconductors that also contain free ions (molecules with an electrical charge) - a diode is a device, as a two-element electron tube or a semiconductor, through which current can pass freely in only one direction. They laminated together two organic layers, one that contained free positive ions and the other negative ions. They then added thin conducting films on the top and bottom; the top conductor is transparent to allow light in and out. Where the two films meet, negative ions migrate across the junction to the positive side and vice versa, until an equilibrium is reached. This is analogous, the researchers said, to what happens in a silicon diode, where electrons and holes migrate across the junction. Taking the organic semiconductor further When a voltage is applied across the top and bottom electrodes, the current flows through an electron junction' that moves in one way while the holes move the other way. The migration of ionic charge across the junction causes a higher potential (voltage difference) than normal, which affects the way electrons combine with holes. This raises the energy of the molecules, which quickly release the energy as photons of light. The junction shows "intense light emission," the researchers said in their paper. On the other hand, when a bright light is applied, photons are absorbed by the molecules, causing them to expel the electrons - the ionic charges create a preferential direction' for the electrons to move, making a current flow. "Since the device was created by laminating together materials that are flexible, large quantities could be manufactured very cheaply by feeding two films together from rolls," Malliaras said. The next step, he added, is to try modifying the metal content of the semiconductors to make more efficient materials. The work is described in the 7 September issue of the Science journal.
Two-in-one from Cornell Researchers at Cornell University have demonstrated a new type of organic semiconductor device which shows electroluminescence and acts as a photovoltaic cell. The device is said to be the first to use an "ionic junction", which researchers say could lead to improved performance. Since organic semiconductors can be made in thin, flexible sheets, they could create displays on cloth or paper.
DuPont founds semiconductor centre DuPont Electronic Technologies has established a Semiconductor Materials Technical Centre in Taiwan's Hsinchu Science Park to focus on materials research for advanced semiconductor processes.
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