KIP publications

 
year 2019
author(s) Patrick Reiser, Frank S. Benneckendorf, Marc-Michael Barf, Lars Müller, Rainer Bäuerle, Sabina Hillebrandt, Sebastian Beck, Robert Lovrincic, Eric Mankel, Jan Freudenberg, Daniel Jänsch, Wolfgang Kowalsky, Annemarie Pucci, Wolfram Jaegermann, Uwe H. F. Bunz, Klaus Müllen
title n-Type Doping of Organic Semiconductors: Immobilization via Covalent Anchoring
KIP-Nummer HD-KIP 19-43
KIP-Gruppe(n) F6
document type Paper
source Chem. Mater. 31 (2019) 4213-4221
doi 10.1021/acs.chemmater.9b01150
Abstract (en)

Electrical doping is an important tool in the design of organic devices to modify charge carrier concentration in and Fermi level position of organic layers. The undesired diffusion of dopant molecules within common transport materials adversely affects both lifetime and device performance. To overcome this drawback, we developed a strategy to achieve immobilization of dopants through their covalent attachment to the semiconductor host molecules. Derivatization of the commonly employed n-type dopant 2-(2-methoxyphenyl)-1,3-dimethyl-2,3-dihydro-1H-benzoimidazole (o-MeO-DMBI) with a phenylazide enables the resulting o-AzBnO-DMBI to photochemically generate a reactive nitrene, which subsequently binds covalently to the host material, 6,6-phenyl-C61-butyric acid methyl ester (PCBM). Both the activation and addition reactions are monitored by mass spectrometry as well as optical and photoelectron spectroscopy. A suppression of desorption and a decrease in volatility of the DMBI derivative in ultrahigh vacuum were observed after activation of a bilayer structure of PCBM and o-AzBnO-DMBI. Electrical measurements demonstrate that the immobilized o-AzBnO-DMBI can (i) dope the PCBM at conductivities comparable to values reported for o-MeO-DMBI in the literature and (ii) yield improved electrical stability measured in a lateral two terminal device geometry. Our immobilization strategy is not limited to the specific system presented herein but should also be applicable to other organic semiconductor–dopant combinations.

bibtex
@article{Pucci2019,
  author   = {Patrick Reiser, Frank S. Benneckendorf, Marc-Michael Barf, Lars M\"uller, Rainer B\"auerle, Sabina Hillebrandt, Sebastian Beck, Robert Lovrincic, Eric Mankel, Jan Freudenberg, Daniel J\"ansch, Wolfgang Kowalsky, Annemarie Pucci, Wolfram Jaegermann, Uwe H. F. Bunz, Klaus M\"ullen},
  title    = {n-Type Doping of Organic Semiconductors: Immobilization via Covalent Anchoring},
  journal  = {Chem. Mater.},
  year     = {2019},
  volume   = {31},
  pages    = {4213-4221},
  month    = {May},
  doi      = {10.1021/acs.chemmater.9b01150},
  url      = {https://pubs.acs.org/doi/10.1021/acs.chemmater.9b01150}
}
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