Bending effect on the resistive switching behavior of a NiO/TiO 2 p-n heterojunction.

Herein, NiO/TiO ₂ heterojunctions were fabricated by sol-gel spin coating on plastic substrates to investigate the effects of bending on resistive switching. The switching mechanism is well explained by the formation and rupture of oxygen-vacancy conducting filaments modulated by the p-n interface. Compared with that of the unbent film, the device ON/OFF ratio is slightly improved after 5000 bending repetitions. Finite element calculations indicate that the tensile stress of 0.79% can lead to the formation of channel cracks. Further charge transport analysis shows that the conducting filaments may cause an incomplete rupture because the bending-induced channel crack permeates through the p-n interface and reduces the local depletion-region width.
Competing Interests: There are no conflicts to declare.
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