Negligible threshold-voltage shift is reported for oxide thin-film transistors (TFTs) under high current (3 μA) and tensile bending stress (2 mm radius). The good stability is attributed to a circular TFT structure with electrically shorted top and bottom gates, and a polyimide substrate embedded with carbon-nanotubes for mechanical support and damage-free detachment from carrier glass. The circular structure leads to uniform electric field distribution across the channel, hard saturation in output characteristics, independence from tensile bending direction-related degradation, as well as isolation of the channel from stress concentrated points, which arise from local electric-field crowding at sharp corners or channel edges. The double-gate topology increases gate-drivability and achieves volume-accumulation, which minimizes the influence of defects at the channel surface and slight variations in carrier concentration during stress. Furthermore, the presence of two gates slightly shifts the location of the neutral bending plane towards the oxide semiconductor, thereby significantly reducing strain.
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