Gate dielectric and contact effects in hydrogenated amorphous silicon‐silicon nitride thin‐film transistors

The characteristics of glow‐discharge hydrogenated amorphous silicon‐silicon nitride (a‐Si:H/a‐SiNx:H) thin‐film transistors (TFTs) are reported for various deposition conditions. TFTs incorporating a N‐rich nitride gate dielectric, a‐SiN1.6:H, are superior to a‐Si:H TFTs with a Si‐rich gate nitride, a‐SiN1.2:H. In particular, the N‐rich gate nitride TFTs show considerably less interface or near‐interface charging during operation, improved stability, and a higher field‐effect mobility. The average field‐effect mobility μFE is found to be 0.27 and 0.41 cm2/V s for the Si‐ and N‐rich gate nitride TFTs, respectively. A further improvement in mobility, μFE =0.61 cm2/V s, is achieved by increasing the N‐rich gate nitride deposition temperature from 250 to 450 °C. These results suggest that N‐rich a‐SiNx:H, deposited at elevated temperatures, yields a more abrupt or ‘‘cleaner’’ a‐SiNx:H/a‐Si:H interface. We also show, for the first time, that using n+ μc‐Si:H source‐drain contacts in place of n+ a‐Si:H improve...

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