Remarkable Off–On Tunable Solid‐State Luminescence by the Regulation of Pyrene Dimer

Abstract

AbstractIt is always a challenge to achieve “off–on” luminescent switch by regulating non‐covalent interactions. Herein, we report a unique strategy for constructing high performance “off–on” tunable luminescent materials utilizing a novel molecule (TFPA) consist of pyrene and cyanostilbene. The pristine crystal of TFPA is almost non‐emissive. Upon grinding/UV irradiation, an obvious luminescence enhancement is observed. Theoretical and experimental results revealed the underlying mechanism of this intriguing “off–on“ switching behavior. The non‐emissive crystal consists of ordered H‐aggregates, with adjacent two molecules stacked in an anti‐parallel manner and no overlapped area in pyrene moieties. When external force is applied by grinding or internal force is introduced through the photoisomerization, the dimer structures are facilitated with shorter intermolecular distances and better overlapping of pyrene moieties. In addition, the “on” state can recover to “off” state under thermal annealing, showing good reversibility and applicability in intelligence material. The present results promote an in‐depth insight between packing structure and photophysical property, and offer an effective strategy for the construction of luminescence “off–on” switching materials, toward the development of stimuli‐responsive luminescent materials for anti‐counterfeiting.