This paper focuses on the long-term electrical degradation of hydrogenated amorphous silicon (a-Si:H)/silicon nitride (SiN) thin-film transistors (TFTs). Different from the classical method where the electrical degradation of a-Si:H/SiN TFTs is quantified by the shift of the threshold voltage after a period of stress, the authors choose to describe the degradation in terms of drain-current transients that appear during alternative periods of electrical stress. It is shown that the contributions of charge trapping and defect creation to the drain-current degradation can be discriminated based on stress time, stress voltage, and temperature. A numerical model with variable parameters is proposed to fit both short-and long-term transients. This paper shows that the long-term current degradation is related to the changes in the interface trapped charge, whereas the creation of the defects dominates the short-term current degradation.
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