Ultra‐Small‐Bandgap Conjugated Polymers Based on an N−B←N Unit
Jin Xu, Jun Liu, Lixiang Wang
Abstract
Abstract Since the breakthrough of conductive polymers in 1977, scientists have made great efforts to create small band gap ( E g ) conjugated polymers. Two general strategies to design small E g conjugated polymers are quinoid structure and donor‐acceptor structure. Ultrasmall E g conjugated polymers ( E g <1.0 eV) always suffer from poor air stability because of high‐lying HOMO energy levels. In this work, we report a new strategy to design ultrasmall E g conjugated polymers by N−B←N unit, i.e. balanced resonant boron‐nitrogen covalent bond (B−N) and boron‐nitrogen coordination bond (B←N). The resulting polymer exhibits an E g of 0.82 eV and an onset absorption wavelength of >1500 nm. Moreover, the polymer exhibits excellent air stability because of its low‐lying LUMO/HOMO energy levels. An unprecedented property of this polymer is the selective light absorption in the infrared range (800–1500 nm) and high transparency in the visible range (400–780 nm). Using this property, for the first time, we demonstrate the application of conjugated polymers as transparent thermal‐shielding coating layer on glass, which reduces indoor solar irradiation through window and consequently reduces power consumption for cooling of buildings and cars in summer.