Pressure‐Induced Multiphoton Excited Fluorochromic Metal–Organic Frameworks for Improving MPEF Properties

In multiphoton excited fluorescence (MPEF), high‐energy upconversion emission is obtained from low‐energy excitation by absorbance of two or more photons simultaneously. In a pressure‐induced fluorochromic process, the emission energy is switched by outer pressure stimuli. Now, five metal–organic fr...

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Veröffentlicht in:	Angewandte Chemie International Edition 2019-10, Vol.58 (40), p.14379-14385
Hauptverfasser:	Chen, Cheng‐Xia, Yin, Shao‐Yun, Wei, Zhang‐Wen, Qiu, Qian‐Feng, Zhu, Neng‐Xiu, Fan, Ya‐Nan, Pan, Mei, Su, Cheng‐Yong
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Sprache:	eng
Schlagworte:	Chromophores Contraction Emission Emissions Energy Fluorescence Metal-organic frameworks multi-photon excited emission Multiphoton absorption Photons Pressure pressure-induced fluorochromism Topology Upconversion
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creator	Chen, Cheng‐Xia Yin, Shao‐Yun Wei, Zhang‐Wen Qiu, Qian‐Feng Zhu, Neng‐Xiu Fan, Ya‐Nan Pan, Mei Su, Cheng‐Yong
description	In multiphoton excited fluorescence (MPEF), high‐energy upconversion emission is obtained from low‐energy excitation by absorbance of two or more photons simultaneously. In a pressure‐induced fluorochromic process, the emission energy is switched by outer pressure stimuli. Now, five metal–organic frameworks containing the same ligand with simultaneous multiphoton absorption and pressure‐induced fluorochromic attributes were studied. One‐, two‐, and three‐photon excited fluorescence (1/2/3PEF) can be achieved in the frameworks, which exhibit pressure‐induced blue‐to‐yellow fluorochromism. The performances are closely dependent with the topologies, flexibilities, and packing states of the frameworks and chromophores therein. The multiphoton upconversion performance can be intensified by pressure‐related structural contraction. Over ten‐fold increment in the 2PA active cross‐section up to 2217 GM is achieved in pressed LIFM‐114 compared with the 210 GM for pristine sample at 780 nm. Easy as 1/2/3: 1/2/3PEF (photon‐excited fluorescence) was correlated with pressure‐induced fluorochromism in MOFs. The multiphoton excited fluorochromic performance can be greatly enhanced after pressure stimulation.
doi_str_mv	10.1002/anie.201908793
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In a pressure‐induced fluorochromic process, the emission energy is switched by outer pressure stimuli. Now, five metal–organic frameworks containing the same ligand with simultaneous multiphoton absorption and pressure‐induced fluorochromic attributes were studied. One‐, two‐, and three‐photon excited fluorescence (1/2/3PEF) can be achieved in the frameworks, which exhibit pressure‐induced blue‐to‐yellow fluorochromism. The performances are closely dependent with the topologies, flexibilities, and packing states of the frameworks and chromophores therein. The multiphoton upconversion performance can be intensified by pressure‐related structural contraction. Over ten‐fold increment in the 2PA active cross‐section up to 2217 GM is achieved in pressed LIFM‐114 compared with the 210 GM for pristine sample at 780 nm. Easy as 1/2/3: 1/2/3PEF (photon‐excited fluorescence) was correlated with pressure‐induced fluorochromism in MOFs. 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subjects	Chromophores Contraction Emission Emissions Energy Fluorescence Metal-organic frameworks multi-photon excited emission Multiphoton absorption Photons Pressure pressure-induced fluorochromism Topology Upconversion
title	Pressure‐Induced Multiphoton Excited Fluorochromic Metal–Organic Frameworks for Improving MPEF Properties
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