A light-induced threshold voltage instability based on a negative-U center in a-IGZO TFTs with different oxygen flow rates

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Abstract

In this paper, we investigate visible light stress instability in radio frequency (RF) sputtered a-IGZO thin film transistors (TFTs). The oxygen flow rate differs during deposition to control the concentration of oxygen vacancies, which is confirmed via RT PL. A negative shift is observed in the threshold voltage (VTH) under illumination with/without the gate bias, and the amount of shift in VTHis proportional to the concentration of oxygen vacancies. This can be explained to be consistent with the ionization oxygen vacancy model where the instability in VTHunder illumination is caused by the increase in the channel conductivity by electrons that are photo-generated from oxygen vacancies, and it is maintained after the illumination is removed due to the negative-U center properties.

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Kim, J. S., Kim, Y. M., Jeong, K. S., Yun, H. J., Yang, S. D., Kim, S. H., … Lee, G. W. (2014). A light-induced threshold voltage instability based on a negative-U center in a-IGZO TFTs with different oxygen flow rates. Transactions on Electrical and Electronic Materials, 15(6), 315–319. https://doi.org/10.4313/TEEM.2014.15.6.315

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