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Design of Stimuli‐Responsive Phenothiazine Derivatives with Triplet‐Related Dual Emission and High‐Contrast Mechanochromism Guided by Polymorph Prediction

Jiayu Zhang, Mengna Zhu, Yunxiang Lu, Xinghong Zhang, Shuzhang Xiao, Haichuang Lan, Tao Yi

2022Chemistry - A European Journal37 citationsDOI

Abstract

Abstract The development of high‐contrast stimulus‐responsive materials with excited triplet emission is of great significance for anti‐counterfeiting, sensor and memory applications, but remains a challenge. Here, we report a strategy for the rational design of stimulus‐responsive phenothiazine derivatives with triplet‐related dual emissions and high‐contrast mechanochromism guided by Polymorph Prediction. The designed phenothiazine derivatives have the characters of simple structures, a facile synthetic procedure, and a good crystalline nature. We found that the crystals of those derivatives with the potential to form both quasi‐axial (ax) and quasi‐equatorial (eq) conformations could undergo conformation transition and show significant emission difference (Δ λ em >100 nm) under mechanical force. Meanwhile, all these phenothiazine derivatives exhibit aggregation‐induced emission and emit room‐temperature phosphorescence or thermally activated delayed fluorescence. The significant luminescent change of these materials under different stimuli gives them promise for applications in encryption and anti‐counterfeiting.

Topics & Concepts

PhenothiazinePhosphorescenceExcited statePhotochemistryLuminescenceFluorescenceAggregation-induced emissionChemistryMaterials scienceOptoelectronicsOpticsPhysicsMedicineNuclear physicsPharmacologyLuminescence and Fluorescent MaterialsPolydiacetylene-based materials and applicationsPhotochromic and Fluorescence Chemistry
Design of Stimuli‐Responsive Phenothiazine Derivatives with Triplet‐Related Dual Emission and High‐Contrast Mechanochromism Guided by Polymorph Prediction | Litcius