Rigidifying Fluorescent Linkers by Metal–Organic Framework Formation for Fluorescence Blue Shift and Quantum Yield Enhancement

Wei, Zhang‐Wen; Gu, Zhi‐Yuan; Arvapally, Ravi; Chen, Ying‐Pin; McDougald, Roy N.; Ivy, Joshua F.; Yakovenko, Andrey A.; Feng, Dawei; Omary, Mohammad A.; Zhou, Hong‐Cai

doi:10.1021/ja5006866

articleJournal of the American Chemical SocietyMay 12, 2014Closed access

Rigidifying Fluorescent Linkers by Metal–Organic Framework Formation for Fluorescence Blue Shift and Quantum Yield Enhancement

ZWZhang‐Wen Wei ZGZhi‐Yuan Gu RARavi Arvapally YCYing‐Pin Chen RNRoy N. McDougald

Texas A&M University · University of North Texas

PubMed

Indexed incrossrefpubmed

Abstract

We demonstrate that rigidifying the structure of fluorescent linkers by structurally constraining them in metal-organic frameworks (MOFs) to control their conformation effectively tunes the fluorescence energy and enhances the quantum yield. Thus, a new tetraphenylethylene-based zirconium MOF exhibits a deep-blue fluorescent emission at 470 nm with a unity quantum yield (99.9 ± 0.5%) under Ar, representing ca. 3600 cm(-1) blue shift and doubled radiative decay efficiency vs the linker precursor. An anomalous increase in the fluorescence lifetime and relative intensity takes place upon heating the solid MOF from cryogenic to ambient temperatures. The origin of these unusual photoluminescence properties is…

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Topics & keywords

Topics

Keywords

Quantum yield
Fluorescence
Chemistry
Intramolecular force
Photochemistry
Photoluminescence
Linker
Tetraphenylethylene

UN Sustainable Development Goals

Affordable and clean energy

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