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Flexible Silicon Infrared Emitter

Detailed Technology Description

Effectively passivating a silicon cell leads to higher open circuit voltages and high efficiencies necessary for various electronic applications. Surface passivation is relevant for thinner wafers where recombination at the surface dominates total recombination. Thinner wafers are necessary as the voltage increases as a function of the excess carrier density. Therefore, there is a need to design a thin silicon cell with high open circuit voltage. Researchers at ASU have developed a method to produce ultra-thin silicon able to emit light. The structures are solar cells grown intrinsically and doped hydrogenated amorphous layers. The high open circuit voltages and high efficiencies result in high radiative efficiencies, leading to high radiative emission in the infrared. Plasma treatment improves the passivation and sputtered indium tin oxide sputtered on both sides optimizes absorption in the infrared region. By applying electricity to the cell terminals, the cell illuminates. Due to the thickness and high performance, the cells are effective flexible silicon infrared emitters. Potential Applications Communications Lighting and illumination applications Military Benefits and Advantages Scalable – The device can be manufactured at the large scale Flexible – The thin film nature of the cell allows flexibility Cost-Effective – The device doubles as a solar cell giving it the potential to be energy self-sufficient For more information about the inventor(s) and their research, please seeStuart Bowden's directory webpage

Country/Region

USA

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