Fluoro-substituted DPP-bisthiophene conjugated polymer with azides in the side chains as ambipolar semiconductor and photoresist

Photoresists are essential for the fabrication of flexible electronics through all-photolithographic processes. Single component semiconducting photoresist exhibits both semiconducting and photo-patterning properties, and as a result, the device fabrication process can be simplified. However, the design of semiconducting polymeric photoresist with ambipolar semiconducting property remains challenging. In this paper, we report a single component semiconducting photoresist ( PFDPPF4T-N 3 ) by incorporating azide groups and noncovalent conformation locks into the side alkyl chains and conjugated backbones of a diketopyrrolopyrrole-based conjugated polymer, respectively. The results reveal that PFDPP4FT-N 3 exhibits ambipolar semiconducting property with hole and electron mobilities up to 1.12 and 1.17 cm 2 V −1 s −1 , respectively. Moreover, field effect transistors with the individual photo-patterned thin films of PFDPPF4T-N 3 also show ambipolar semiconducting behavior with hole and electron mobilities up to 0.66 and 0.80 cm 2 V −1 s −1 , respectively. These results offer a simple yet effective design strategy for high-performance single component semiconducting photoresists, which hold great potential for flexible electronics processed by all photolithography.