Title
Thermally Stable and High-Mobility Dithienopyran-Based Copolymers: How Donor–Acceptor- and Donor–Donor-Type Structures Differ in Thin-Film Transistors
Author
Seonghun Jeong, Hyeonijin Yoo, Yongjoon Cho, Seong-jun Yoon, Byoung Hoon Lee, Changduk Yang
Year
2021
Journal
Small Structures
Abstract
Although rapid and remarkable progress has been made in semiconducting polymers used in organic field-effect transistors (OFETs), the development of novel π-conjugated backbones remains the central issue in this field. High FET mobilities have been achieved for copolymers based on fused-ring building blocks due to their strong tendency to form ππ stacks. However, introducing the recently formulated strong electron-rich fused-ring dithienopyran (DTP) unit in the polymer backbone has garnered considerably less attention. Herein, four new copolymers (donor–acceptor (DA)-type versus donor–donor (DD)-type structures) are synthesized based on the DTP unit by adopting different types of counterparts of the backbone. The characteristics of these copolymers, derived from different structural types, are investigated and compared and they are implemented in OFET devices. The DA-type copolymers (P1 and P2) show higher charge-carrier mobilities and better thermal stability than the DD-type copolymers (P3 and P4), attributed to enhanced crystalline features induced by strong intermolecular interactions and preferential 3D-textured molecular orientation of the DA-type copolymers. Particularly, P1 exhibits the highest mobility of up to 0.22 cm2 V−1 s−1. This study provides a reference for understanding the influence of the backbone type on the structure–property relation and promotes the development of high-performance DTP-based copolymers.
Instrument
V-770
Keywords
organic field-effect transistors, OFETs, thermal stability