Molecular-dipole Oriented Universal Growth of Conjugated Polymers into Semiconducting Single-crystal Thin Films

Overview

Journal Nat Commun

Date 2025 Feb 10

PMID 39929842

Authors

Chunyan Zhao

Xilin Lai

Dawei Liu

Xinrui Guo

Jiamin Tian

Zuoyuan Dong

Shaochuan Luo

Dongshan Zhou

Lang Jiang

Ru Huang

Ming He

Affiliations

Soon will be listed here.

Abstract

Precise control over crystallinity and morphology of conjugated polymers (CPs) is essential for progressing organic electronics. However, manufacturing single-crystal thin films of CPs presents substantial challenges due to their complex molecular structures, distorted chain conformations, and unbalanced crystallization kinetics. In this work, we demonstrate a universal nanoconfined molecular-dipole orientating strategy to craft high-quality single-crystal thin films for a variety of CPs, spanning from traditional thiophene- and theinothiophene-based homopolymers to diketopyrrolopyrrole- (i.e., p-type) and naphthalene-based (i.e., n-type) donor-acceptor copolymers. Central to this strategy is the synergetic manipulations of molecular dipoles, π-π stackings, and alkyl-alkyl interactions of CPs within our rationally-designed spatial-electrostatic confinement capacitor, which facilitates the rotation of conjugated backbones and the alignment of π-π stackings into microscale-sized single-crystal thin films. A minimal energetic disorder of 25 meV that below the thermal fluctuation energy kT at room temperature, as well as an excellent transistor mobility of 15.5 cmVs are achieved, marking a significant step towards controllable growths of conjugated-polymer single-crystal thin films that hold a cornerstone for high-performance organic electronic devices.

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