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Issue 11, 2023

Site-selective functionalization of in-plane nanoelectrode-antennas

Abstract

Stacked organic optoelectronic devices make use of electrode materials with different work functions, leading to efficient large area light emission. In contrast, lateral electrode arrangements offer the possibility to be shaped as resonant optical antennas, radiating light from subwavelength volumes. However, tailoring electronic interface properties of laterally arranged electrodes with nanoscale gaps - to e.g. optimize charge-carrier injection - is rather challenging, yet crucial for further development of highly efficient nanolight sources. Here, we demonstrate site-selective functionalization of laterally arranged micro- and nanoelectrodes by means of different self-assembled monolayers. Upon applying an electric potential across nanoscale gaps, surface-bound molecules are removed selectively from specific electrodes by oxidative desorption. Kelvin-probe force microscopy as well as photoluminescence measurements are employed to verify the success of our approach. Moreover, we obtain asymmetric current–voltage characteristics for metal–organic devices in which just one of the electrodes is coated with 1-octadecanethiol; further demonstrating the potential to tune interface properties of nanoscale objects. Our technique paves the way for laterally arranged optoelectronic devices based on selectively engineered nanoscale interfaces and in principle enables molecular assembly with defined orientation in metallic nano-gaps.

Graphical abstract: Site-selective functionalization of in-plane nanoelectrode-antennas

Supplementary files

Article information

Article type
Paper
Submitted
12 Nov 2022
Accepted
06 Feb 2023
First published
08 Feb 2023
This article is Open Access
Creative Commons BY-NC license

Nanoscale, 2023,15, 5249-5256

Site-selective functionalization of in-plane nanoelectrode-antennas

M. Ochs, L. Jucker, M. Rödel, M. Emmerling, R. Kullock, J. Pflaum, M. Mayor and B. Hecht, Nanoscale, 2023, 15, 5249 DOI: 10.1039/D2NR06343C

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