P. Münster, M. Sarret, T. Mohammed‐Brahim, N. Coulon, J. Mevellec
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Polycrystalline silicon deposited on glass by subatmospheric-pressure chemical vapour deposition at a high rate
Abstract Amorphous silicon films have been deposited on glass by subatmosphericpressure chemical vapour deposition and then crystallized by solid-phase crystallization. The structural and electrical properties of these polycrystalline silicon films are presented in this work. Good crystalline quality at a deposition pressure of about 400 mbar has been achieved as well as values of the mobilitylifetime product above 10−5cm2V−1 and an ambipolar diffusion length near 200 nm. Depending upon the deposition temperature and pressure, growth rates of up to 20 μm h−1 can be obtained. In-situ doping with arsenic and boron has been studied using Hall effect measurements. High mobilities around 45cm2V−1s−1 have been attained for highly n-type doped samples and mobilities in the range from 20 to 30 cm2 V−1 s−1 for boron-doped samples.
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