Issue 1, 2020

Image-force effects on energy level alignment at electron transport material/cathode interfaces

Abstract

Electron transport materials (ETMs) are widely used as interlayers to lower the cathode electrode work function in organic solar cells and organic light-emitting diodes, for example. The usual interpretation for their operating principle is a chemical interaction between the ETM and the electrode, inducing partial or integer charge transfer or collectively an intrinsic dipole moment caused by preferential molecular orientation. Herein, we systematically explore the commonly used ETM bathophenanthroline (BPhen) deposited on a series of conducting substrates. The energetics at the BPhen interface follows the typical integer charge transfer (ICT) model with an extra displacement of the vacuum level by up to −1.4 eV. The extra displacement is ascribed to the “double dipole step” formed by the positive and negative charged species and their induced image charges when they are close to the surface of substrates. After n-type doping the displacement is further increased to −1.8 eV, yielding a larger work function modification than obtained using typical electrolytes and zwitterions as cathode interlayer.

Graphical abstract: Image-force effects on energy level alignment at electron transport material/cathode interfaces

Supplementary files

Article information

Article type
Paper
Submitted
17 Sep 2019
Accepted
22 Nov 2019
First published
25 Nov 2019
This article is Open Access
Creative Commons BY license

J. Mater. Chem. C, 2020,8, 173-179

Image-force effects on energy level alignment at electron transport material/cathode interfaces

Y. Chen, X. Liu, S. Braun, Y. Wang and M. Fahlman, J. Mater. Chem. C, 2020, 8, 173 DOI: 10.1039/C9TC05128G

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