Scientific Reports (Jul 2017)

Doping-induced carrier profiles in organic semiconductors determined from capacitive extraction-current transients

  • Mathias Nyman,
  • Oskar J. Sandberg,
  • Staffan Dahlström,
  • Donato Spoltore,
  • Christian Körner,
  • Yadong Zhang,
  • Stephen Barlow,
  • Seth R. Marder,
  • Karl Leo,
  • Koen Vandewal,
  • Ronald Österbacka

DOI
https://doi.org/10.1038/s41598-017-05499-3
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 9

Abstract

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Abstract A method to determine the doping induced charge carrier profiles in lightly and moderately doped organic semiconductor thin films is presented. The theory of the method of Charge Extraction by a Linearly Increasing Voltage technique in the doping-induced capacitive regime (doping-CELIV) is extended to the case with non-uniform doping profiles and the analytical description is verified with drift-diffusion simulations. The method is demonstrated experimentally on evaporated organic small-molecule thin films with a controlled doping profile, and solution-processed thin films where the non-uniform doping profile is unintentional, probably induced during the deposition process, and a priori unknown. Furthermore, the method offers a possibility of directly probing charge-density distributions at interfaces between highly doped and lightly doped or undoped layers.