This review highlights key strategies in structural engineering for achieving near-IR (NIR) optical absorption with conjugated polymers (NIR-CPs), and it details their utility in various organic electronic device applications.
This study explores Sn-doped perovskite QDs blended with conjugated polymers to modulate charge trapping and decrease energy consumption in photosynaptic transistors, enabling efficient and multifunctional neuromorphic optoelectronic devices.
Chiral dimers formed by linking cholesterol to phenyl 3-(4-(n-alkoxy)phenyl)propiolate via ω-oxyalkanoyloxy spacer exhibit odd–even effect, stabilizing SmA, N*, BPI/II, & TGBC* phases. TGBC* phase width increases with longer terminal tails.
This review describes the design considerations, bonding modes between monomers, structural modification strategies, and applications of polymer semiconductors with excellent electron transport performances.
Modulated by chalcogen effect, polymer SeDPP-Te exhibited high hole mobility and shortwave infrared phototransistor performance, with photoresponsivity, photosensitivity and specific detectivity up to 34.0 A W−1, 27.6 and 2.76 × 1011 Jones.