APL Materials (May 2018)

Relation between film thickness and surface doping of MoS2 based field effect transistors

  • César J. Lockhart de la Rosa,
  • Goutham Arutchelvan,
  • Alessandra Leonhardt,
  • Cedric Huyghebaert,
  • Iuliana Radu,
  • Marc Heyns,
  • Stefan De Gendt

DOI
https://doi.org/10.1063/1.4996425
Journal volume & issue
Vol. 6, no. 5
pp. 058301 – 058301-6

Abstract

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Ultra-thin MoS2 film doping through surface functionalization with physically adsorbed species is of great interest due to its ability to dope the film without reduction in the carrier mobility. However, there is a need for understanding how the thickness of the MoS2 film is related to the induced surface doping for improved electrical performance. In this work, we report on the relation of MoS2 film thickness with the doping effect induced by the n-dopant adsorbate poly(vinyl-alcohol). Field effect transistors built using MoS2 films of different thicknesses were electrically characterized, and it was observed that the ION/OFF ratio after doping in thin films is more than four orders of magnitudes greater when compared with thick films. Additionally, a semi-classical model tuned with the experimental devices was used to understand the spatial distribution of charge in the channel and explain the observed behavior. From the simulation results, it was revealed that the two-dimensional carrier density induced by the adsorbate is distributed rather uniformly along the complete channel for thin films (<5.2 nm) contrary to what happens for thicker films.