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Abstract We report the thickness effect of amorphous silicon for the polycrystalline silicon (poly-Si) layer laterally crystallized by blue laser annealing (BLA) using 50 μs melting time. The grain size is… Click to show full abstract
Abstract We report the thickness effect of amorphous silicon for the polycrystalline silicon (poly-Si) layer laterally crystallized by blue laser annealing (BLA) using 50 μs melting time. The grain size is much larger and full width at half-maximum of Raman intensity is lower compared to those of the poly-Si by excimer laser annealing. It is found that the average width of lateral grain is wider than 3 μm and full width of half maximum of Raman intensity for the BLA poly-Si with an optimum thickness of 90 nm is 3.32 cm−1. The p-type poly-Si thin-film transistor with 90 nm exhibits field-effect mobility of 161.91 ± 6.14 cm2/Vs and subthreshold swing of 227 ± 7 mV/dec.
Journal Title: Thin Solid Films
Year Published: 2019
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