Amorphous and microcrystalline silicon films obtained by hot-wire chemical vapour deposition using high filament temperatures between 1900 and 2500°C

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Abstract The effects of hydrogen dilution and substrate temperature on the optical, transport and structural properties of silicon thin films deposited by hot-wire chemical vapour deposition using filament temperatures between 1900 and 2500°C are reported. Amorphous silicon films with a Tauc bandgap of 1·65eV, a photoconductivity-to-dark-conductivity ratio above 105, a deep defect density of 1016 cm−3, an Urbach energy of 55 meV and a structure factor R ≍ 0·2 were prepared with deposition rates up to 40 A s−1 for hydrogen dilutions below 80%. The best properties were obtained for undiluted films deposited at a substrate temperature of 220°C. For hydrogen dilutions above 80%, microcrystalline films were obtained with low growth rates (below 3 A s−1) for all substrate temperatures studied (between 100 and 400°C) regardless of the filament temperature. The Raman spectra show a high crystalline fraction and a small grain size. In this filament temperature regime, the growth mechanism and film properties are c...