In recent years, the potential applications of organic field-effect transistors (OFETs) have attracted significant interest in flexible electronics, low-cost displays, and large-area sensor arrays. This research presents a detailed simulation study on the design and modeling of OFETs using organic semiconductor materials. The study primarily focuses on analyzing the electrical characteristics of devices by varying key parameters: channel length, dielectric thickness, dielectric materials, and drain voltage. Performance optimization is achieved by systematically examining how these parameters affect the OFETs’ electrical behavior. The results highlight the significance of appropriate device design, material selection, and simulation-based optimization in achieving high-performance OFETs. The insights from this work contribute to the ongoing advancement of OFET technology and lay the foundation for future research in organic electronics.
Sharaj et al. (Sat,) studied this question.