Intrinsically Flexible and Aging Resistant Fluorene‐Based Rod‐Coil Copolymer for Bendable Deep‐Blue PLEDs

Abstract In the field of flexible light‐emitting display, goal‐oriented intelligent molecular design is used to control various behaviors of molecules, which provides potential for the development of flexible light‐emitting conjugated polymers (LCPs). The introduction of non‐conjugated units into polymer molecules is a key prerequisite for realizing the intrinsic flexibility, but its easy interchain slip will also lead to the formation of interchain excited states, which is detrimental to the efficiency of light‐emitting diodes. Herein, two kinds of fluorene‐based rod‐coil copolymer with stable deep blue emission characteristics is presented and with Commission Internationale de L'Eclairage (CIE) coordinates of (0.18, 0.14) and (0.15, 0.09), respectively. Surprisingly, the copolymer films show efficient blue emission even at 100% tension. Meanwhile, the rod‐coil copolymer possesses better aging resistance compared to rigid π ‐conjugated counterparts. Finally, both rigid and flexible light‐emitting diodes based on rod‐coil copolymer exhibit stable deep blue emission, and the G2‐based PLED with CIE coordinates of (0.16, 0.08), which approach National Television System Committee standard blue specification. These results confirm the validity of rod‐coil copolymer design strategy in constructing inherently flexible polymers with deep blue emission, which have great application potential in flexible PLEDs.