AIP Advances (Oct 2023)

Effect of source–drain contact and channel length on the performance of vertical thin-film transistors

  • Xue-Mei Yin,
  • De-Lang Lin,
  • Yu-Pei Yan,
  • Yi Li,
  • Wei-Min Ma

DOI
https://doi.org/10.1063/5.0174858
Journal volume & issue
Vol. 13, no. 10
pp. 105217 – 105217-7

Abstract

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Vertical thin-film transistors (V-TFTs) with an InSnO-stabilized ZnO channel were fabricated. The vertical architecture enables devices with submicron channel lengths (≤500 nm) to afford delivering drain current greatly exceeding that of conventional planar TFTs. Due to the submicron length of the V-TFT channel, an on/off state current higher than 107 can be achieved even with a drain voltage of 0.01 V, and the subthreshold swing was kept in the tens of mV/dec range owing to the efficacious device preparation. In order to understand the influence of structures on the device performance, the source–drain (S/D) contact and the channel length of V-TFTs were designed and studied. The results show that the increase in the contact area between the active layer and the S/D region can reduce the S/D contact resistance, thus affecting the drain current across the threshold region. When the channel length is shortened to a deep submicron size, the electrostatic coupling between the source and drain electrodes will lead to a decrease in the S/D barrier. This leads to the leakage-induced barrier reduction effect of V-TFTs.