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Geometrical Impact of High Curvature Bending on the Performance of Thin Film Transistors
- Citation Author(s):
- Prasenjit Bhattacharya, Aswathi Nair, Sanjiv Sambandan
- Submitted by:
- Sanjiv Sambandan
- Last updated:
- Thu, 11/08/2018 - 10:34
- DOI:
- 10.21227/H2G661
- Data Format:
- License:
160 Views- Categories:
- Keywords:
Abstract
The impact of high curvature bending on thin film transistor(TFT) performance is of interest for flexible electronics. Bending influences TFT performance in two ways. First due to mechanical stress and second due to the pure geometric effect of converting a planar architecture to a cylindrical one. Experiments to simultaneously create and yet distinguish these two effects are difficult. Analytical models are required to identify the individual impact of stress and geometry. The goal of this work is to identify the purely geometrical impact on TFT characteristics. Closed form solutions of the Poisson-Boltzmann equation in polar coordinates are obtained and compared with TCAD simulations. The models are validated using experimental data for a buckled gate TFT.
The data set contains 3 Microsoft Excel files. Each file (labeled appropriately) corresponds to the data used to generate plots for the paper.
Dataset Files
- Data set to generate the plots of Fig.2 Fig2.xlsx (27.77 kB)
- Data set to generate the plots of Fig.3 Fig3.xlsx (135.64 kB)
- Data set to generate the plots of Fig.4 Fig4.xlsx (158.57 kB)
Comments
The data set contains 3 Microsoft Excel files. Each file (labeled appropriately) corresponds to the data used to generate plots for the paper. Analysis is described in the paper.