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Pressure-Induced Restricting Intermolecular Vibration of a Herringbone Dimer for Significantly Enhanced Multicolor Emission in Rotor-Free Truxene Crystals

Min Wu, Hao Liu, Haichao Liu, Tong Lu, Shiping Wang, Guangming Niu, Laizhi Sui, Fu‐Quan Bai, Bing Yang, Kai Wang, Xinyi Yang, Bo Zou

2022The Journal of Physical Chemistry Letters54 citationsDOI

Abstract

Organic solid-state luminescent materials exhibit numerous exciting photoelectric properties that are central to emergent organic light-emitting diodes, smart sensors, and data encryption. However, the luminescence of pure organic rotor-free materials has been afflicted with strong intermolecular π-π stacking interactions. Herein, an unprecedented pressure-induced emission enhancement (PIEE) is realized in a system of rigid planar pure polycyclic aromatics, i.e., truxene crystals. The emission intensity is enhanced 7-fold below 3.0 GPa with a photoluminescence quantum yield increased to 10.17% compared with the initial value of 1.78%, and the emission colors change from green (520 nm) to red (640 nm) within 11.8 GPa. Spectral characterizations and first-principles calculations reveal that the PIEE and piezochromism can mainly be attributed to the restricted intermolecular vibration and the decreased energy gap. Our findings enrich the PIEE mechanism and provide a new guideline for designing pressure-responsive luminescent materials in advancing their photoelectric applications.

Topics & Concepts

Intermolecular forcePhotoluminescenceLuminescenceMaterials scienceStackingDimerQuantum yieldPhotoelectric effectOptoelectronicsAggregation-induced emissionLight emissionChemical physicsNanotechnologyFluorescenceChemistryOpticsMoleculeOrganic chemistryPhysicsLuminescence and Fluorescent MaterialsSynthesis and Properties of Aromatic CompoundsOrganic Light-Emitting Diodes Research
Pressure-Induced Restricting Intermolecular Vibration of a Herringbone Dimer for Significantly Enhanced Multicolor Emission in Rotor-Free Truxene Crystals | Litcius