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Perylene Bisimide and Naphthyl‐Based Molecular Dyads: Hydrogen Bonds Driving Co‐planarization and Anomalous Temperature‐Response Fluorescence

Congdi Shang, Gang Wang, Ke Liu, Qingwei Jiang, Fengyi Liu, Pi‐Tai Chou, Yu Fang

2020Angewandte Chemie International Edition40 citationsDOI

Abstract

Abstract The origin of the positive temperature effect in fluorescence emission of a newly designed perylene bisimide (PBI) derivative with two naphthyl units containing ortho‐methoxy group (NM) at its bay positions (PBI‐2NM) was elucidated. A key point is the finding of a weak hydrogen bond (<5.0 kcal mol −1 ) between the methoxy group of the NM unit and a nearby hydrogen atom of the PBI core. It is the bonding that drives co‐planarization of the different aromatic units, resulting in delocalization of the π‐electrons of the compound as synthesized, inducing fluorescence quenching via intramolecular charge transfer (ICT). With increasing temperature, the co‐planar structure could be distorted in part, resulting in a decreased degree of ICT, and hence leading to enhanced fluorescence emission. The unique positive temperature effect in emission induced by H‐bond‐driven co‐planarization may pave a new avenue in designing functional molecular systems complementary to conventional methods.

Topics & Concepts

PeryleneFluorescenceChemical-mechanical planarizationPhotochemistryHydrogen bondMaterials scienceHydrogenOptoelectronicsChemistryMoleculeNanotechnologyOpticsPhysicsOrganic chemistryLayer (electronics)Luminescence and Fluorescent MaterialsMolecular Sensors and Ion DetectionCrystallography and molecular interactions
Perylene Bisimide and Naphthyl‐Based Molecular Dyads: Hydrogen Bonds Driving Co‐planarization and Anomalous Temperature‐Response Fluorescence | Litcius