Issue 14, 2021

Polymer defect engineering – conductive 2D organic platelets from precise thiophene-doped polyethylene

Abstract

We developed a simple way to create 2D conductive nanostructures with dielectric cores and conductive surfaces based on polyethylene with in-chain thiophene groups. Generally, thiophene-based polymers show great conductive properties, but exhibit a poor processability. Here, we use the crystallization of a polyethylene chain with precisely distributed thiophene groups as the platform for a self-organization of a lamellar structure. During crystallization, thiophene groups are expelled to the crystal surface. Subsequent copolymerization with 3,4-ethylenedioxythiophene (EDOT) molecules finally yields 2D platelets with a conductive surface. The electric properties of the surface are demonstrated by conductivity measurements. Given the molecular structure of the polymer, it can be assumed that the conductive layer consists of only one monoatomic layer of polymerized thiophene. We thus show a new way to create an ultra-thin, conductive surface on a polymer surface in just a few steps. Hence, the method presented here opens up a wide range of possibilities to produce complex, nanoscale electronic structures for microelectronic applications.

Graphical abstract: Polymer defect engineering – conductive 2D organic platelets from precise thiophene-doped polyethylene

Supplementary files

Article information

Article type
Paper
Submitted
26 Janv. 2021
Accepted
18 Febr. 2021
First published
02 Marts 2021
This article is Open Access
Creative Commons BY license

Polym. Chem., 2021,12, 2045-2053

Polymer defect engineering – conductive 2D organic platelets from precise thiophene-doped polyethylene

O. Suraeva, B. Jeong, K. Asadi, K. Landfester, F. R. Wurm and I. Lieberwirth, Polym. Chem., 2021, 12, 2045 DOI: 10.1039/D1PY00117E

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