Abstract
The physical origins of the negative-bias stress (NBS) instability in polymer-based thin-film transistors have been characterized. Through the quantitative analysis by TCAD simulation for the NBS time-dependent experimental results, the threshold voltage (VT)-shift by sub-bandgap density-of-states redistribution forms 70% and 78% for the measured total V T-shift while VT-shift by gate oxide charge trapping only takes 30% and 22% at NBS time of 3000 and 7000 s, respectively. In addition, the increase of source/drain Schottky contact resistance (RSD) is the main reason for NBS-induced on-current (ION) degradation. © 2014 IEEE.
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Lee, J., Jang, J., Kim, H., Lee, J., Lee, B. L., Choi, S. J., … Kim, K. R. (2014). Physical origins and analysis of negative-bias stress instability mechanism in polymer-based thin-film transistors. IEEE Electron Device Letters, 35(3), 396–398. https://doi.org/10.1109/LED.2014.2298861
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