Advanced Electronic Materials (Mar 2024)

Self‐Aligned Contact Doping for Performance Enhancement of Low‐Leakage Carbon Nanotube Field Effect Transistors

  • Hsin‐Yuan Chiu,
  • Tzu‐Ang Chao,
  • Nathaniel S. Safron,
  • Sheng‐Kai Su,
  • San‐Lin Liew,
  • Wei‐Sheng Yun,
  • Po‐Sen Mao,
  • Yu‐Tung Lin,
  • Vincent Duen‐Huei Hou,
  • Tung‐Ying Lee,
  • Wen‐Hao Chang,
  • Matthias Passlack,
  • Hon‐Sum Philip Wong,
  • Iuliana P. Radu,
  • Han Wang,
  • Gregory Pitner,
  • Chao‐Hsin Chien

DOI
https://doi.org/10.1002/aelm.202300519
Journal volume & issue
Vol. 10, no. 3
pp. n/a – n/a

Abstract

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Abstract Carbon nanotube (CNT) field effect transistors (CNFETs) show promise for the next generation VLSI systems due to their excellent scalability, energy efficiency, and speed. However, high leakage current is a drawback of large diameter CNTs (diameter (DCNT) ≥ 1.4 nm) due to the small electronic band gap (EG) ≤ 0.6 eV and effective mass. This work investigates the on‐current and off‐current tradeoff for two populations of semiconducting‐enriched CNT with DCNT ≈ 1.0 nm displaying a simultaneous 50x improvement in minimun current (IMIN) with 2.5x degradation in contact resistance compared to DCNT ≈ 1.4 nm using a Pd side‐bonded contact. A method to enhance the performance of low‐leakage CNFETs is demonstrated using sub‐monolayer self‐aligned contact doping with 0.8 nm of MoOX, which delivers a 57% reduction in contact resistance to DCNT ≈ 1.0 nm. Robustness is verified after annealing at 200 °C for 30 min and monitoring stability across 6 months post‐fabrication with no change in electrical behaviors.

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