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Crystallization of amorphous silicon(a-Si) which starts from the middle of the a-Si region separating two adjacent metal-induced crystallization(MIC) polycrystalline silicon(poly-Si) regions is observed. The crystallization is found to be related to the distance between the neighboring nickel-introducing MIC windows. Trace nickel that diffuses from the MIC window into the a-Si matrix during the MIC heat-treatment is experimentally discovered, which is responsible for the crystallization of the a-Si beyond the MIC front. A minimum diffusion coefficient of 1.84×10~(-9)cm~2/s at 550℃ is estimated for the trace nickel diffusion in a-Si.
Crystallization of amorphous silicon (a-Si) which starts from the middle of the a-Si region separate two adjacent metal-induced crystallization (MIC) polycrystalline silicon distance between the neighboring nickel-introducing MIC windows. Trace nickel that diffuses from the MIC window into the a-Si matrix during the MIC heat-treatment is experimentally discovered, which is responsible for the crystallization of the a-Si beyond the MIC front. A minimum diffusion coefficient of 1.84 × 10 ~ (-9) cm ~ 2 / s at 550 ℃ is estimated for the trace nickel diffusion in a-Si.