Tunable Solid‐State Properties and Anisotropic Charge Mobility in Hydrogen‐Bonded Diketopyrrolopyrrole Polymers via Automated Device Fabrication and Characterization.

Nyayachavadi, Audithya; Wang, Chengshi; Vriza, Aikaterini; Wang, Yunfei; Ma, Guorong; Mooney, Madison; Mason, Gage T.; Hu, Anita; Liu, Yuzi; Gu, Xiaodan; Chan, Henry; Xu, Jie; Rondeau‐Gagné, Simon

The optoelectronic properties of semiconducting polymers and device performance rely on a delicate interplay of design and processing conditions. However, screening and optimizing the relationships between these parameters for reliably fabricating organic electronics can be an arduous task requiring significant time and resources. To overcome this challenge, Polybot is developed—a robotic platform within a self‐driving lab that can efficiently produce organic field‐effect transistors (OFETs) from various semiconducting polymers via high‐throughput blade coating deposition. Polybot not only handles the fabrication process but also can conduct characterization tests on the devices and autonomously analyze the data gathered, thus facilitating the rapid acquisition of data on a large scale. This work leverages the capabilities of this platform to investigate the fabrication of OFETs using hydrogen bonding‐containing semiconducting polymers. Through high‐throughput fabrication and characterization, various data trends are analyzed, and large extents of anisotropic charge mobility are observed in devices. The materials are thoroughly characterized to understand the role of processing conditions in solid state and electronic properties of these organic semiconductors. The findings demonstrate the effectiveness of automated fabrication and characterization platforms in uncovering novel structure–property relationships, facilitating refinement of rational chemical design, and processing conditions, ultimately leading to new semiconducting materials.

SEMICONDUCTORS; ORGANIC electronics; ACQUISITION of data; TRANSISTORS; POLYMERS

Advanced Functional Materials, 2024, Vol 34, Issue 40, p1

1616-301X

Academic Journal

10.1002/adfm.202403612