Switchable Nonlinear Optical Absorption of Metal–Organic Frameworks

Metal–organic frameworks (MOFs) are widely explored owing to their excellent nonlinear optical (NLO) properties. However, researchers have mainly focused on designing new structures of MOF crystals to adjust the NLO response while ignoring the influence of the number of metal–ligand coordination bon...

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Veröffentlicht in:	Advanced optical materials 2022-09, Vol.10 (18), p.n/a
Hauptverfasser:	Liang, Yuning, Hu, Wenjie, Yuan, Xue, Zeng, Zaiping, Zhu, Baohua, Gu, Yuzong
Format:	Artikel
Sprache:	eng
Schlagworte:	Absorption Charge transfer Coordination numbers Crystal structure first‐principles calculations Ligands Logic circuits Materials science Metal-organic frameworks Nonlinear optics Optical properties Optics reverse saturable absorption saturable absorption Switches
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creator	Liang, Yuning Hu, Wenjie Yuan, Xue Zeng, Zaiping Zhu, Baohua Gu, Yuzong
description	Metal–organic frameworks (MOFs) are widely explored owing to their excellent nonlinear optical (NLO) properties. However, researchers have mainly focused on designing new structures of MOF crystals to adjust the NLO response while ignoring the influence of the number of metal–ligand coordination bonds on the NLO properties of MOFs. In this study, the influence of the coordination numbers of MOFs on their NLO properties is studied for the first time. Herein, MOFs with different coordination numbers, using trifluoroacetic acid as an auxiliary agent, are synthesized and their NLO properties are tested using the Z‐scan technique. The results reveal that the NLO absorption properties of MOFs with high coordination numbers can be effectively modulated from saturable absorption to reverse saturable absorption by increasing the excitation intensity. First‐principles calculations show that a change in the coordination numbers leads to a change in the charge transfer from metal to ligand, thereby resulting in different NLO responses. The MOFs with a high coordination number have potential applications in novel optical switches or logic gates. These results provide a reference for the precise adjustment of the NLO properties of MOFs. In this paper, the coordination numbers of metal–organic frameworks (MOFs) are improved by adding trifluoroacetic acid. First‐principles calculations and ultra‐fast carrier dynamics analysis show that a change in the coordination numbers leads to a change in the charge transfer from metal to ligand, thereby resulting in different nonlinear optical responses.
doi_str_mv	10.1002/adom.202200779
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However, researchers have mainly focused on designing new structures of MOF crystals to adjust the NLO response while ignoring the influence of the number of metal–ligand coordination bonds on the NLO properties of MOFs. In this study, the influence of the coordination numbers of MOFs on their NLO properties is studied for the first time. Herein, MOFs with different coordination numbers, using trifluoroacetic acid as an auxiliary agent, are synthesized and their NLO properties are tested using the Z‐scan technique. The results reveal that the NLO absorption properties of MOFs with high coordination numbers can be effectively modulated from saturable absorption to reverse saturable absorption by increasing the excitation intensity. First‐principles calculations show that a change in the coordination numbers leads to a change in the charge transfer from metal to ligand, thereby resulting in different NLO responses. The MOFs with a high coordination number have potential applications in novel optical switches or logic gates. These results provide a reference for the precise adjustment of the NLO properties of MOFs. In this paper, the coordination numbers of metal–organic frameworks (MOFs) are improved by adding trifluoroacetic acid. First‐principles calculations and ultra‐fast carrier dynamics analysis show that a change in the coordination numbers leads to a change in the charge transfer from metal to ligand, thereby resulting in different nonlinear optical responses.</description><identifier>ISSN: 2195-1071</identifier><identifier>EISSN: 2195-1071</identifier><identifier>DOI: 10.1002/adom.202200779</identifier><language>eng</language><publisher>Weinheim: Wiley Subscription Services, Inc</publisher><subject>Absorption ; Charge transfer ; Coordination numbers ; Crystal structure ; first‐principles calculations ; Ligands ; Logic circuits ; Materials science ; Metal-organic frameworks ; Nonlinear optics ; Optical properties ; Optics ; reverse saturable absorption ; saturable absorption ; Switches</subject><ispartof>Advanced optical materials, 2022-09, Vol.10 (18), p.n/a</ispartof><rights>2022 The Authors. Advanced Optical Materials published by Wiley‐VCH GmbH</rights><rights>2022. 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subjects	Absorption Charge transfer Coordination numbers Crystal structure first‐principles calculations Ligands Logic circuits Materials science Metal-organic frameworks Nonlinear optics Optical properties Optics reverse saturable absorption saturable absorption Switches
title	Switchable Nonlinear Optical Absorption of Metal–Organic Frameworks
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