An Anionic Interpenetrated Zeolite-Like Metal-Organic Framework Composite As a Tunable Dual-Emission Luminescent Switch for Detecting Volatile Organic Molecules

An Anionic Interpenetrated Zeolite-Like Metal-Organic Framework Composite As a Tunable Dual-Emission Luminescent Switch for Detecting Volatile Organic Molecules

The luminescent MOF [(CH3)2NH2]2[(Zn2O)L]⋅5 DMF (NENU‐519, NENU=Northeast Normal University) with a zeolite BCT topology was successfully synthesized. It is a rare example of a two‐fold interpenetrated framework with a zeolite topology. NENU‐519 demonstrates the ability to selectively adsorb cationi...

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Veröffentlicht in:Chemistry : a European journal 2016-11, Vol.22 (48), p.17298-17304
Hauptverfasser: Xie, Wei, He, Wen-Wen, Li, Shun-Li, Shao, Kui-Zhan, Su, Zhong-Min, Lan, Ya-Qian
Format: Artikel
Sprache:eng
Schlagworte:
Aromatic compounds
Benzene
Cationic dyes
Chemistry
Composite materials
dual-emitting luminescent sensors
Dyes
Emission
Energy transfer
Ethylbenzene
Hydrocarbons
Isomers
Metal-organic frameworks
Organic chemistry
p-Xylene
Pyridines
Switches
Topology
VOCs
Volatile organic compounds
volatile organic molecules
Xylene
Zeolites
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container_end_page 17304
container_issue 48
container_start_page 17298
container_title Chemistry : a European journal
container_volume 22
creator Xie, Wei
He, Wen-Wen
Li, Shun-Li
Shao, Kui-Zhan
Su, Zhong-Min
Lan, Ya-Qian
description The luminescent MOF [(CH3)2NH2]2[(Zn2O)L]⋅5 DMF (NENU‐519, NENU=Northeast Normal University) with a zeolite BCT topology was successfully synthesized. It is a rare example of a two‐fold interpenetrated framework with a zeolite topology. NENU‐519 demonstrates the ability to selectively adsorb cationic dyes. Furthermore we developed Rh6@NENU‐519 (Rh6=Rhodamine 6G) as a dual‐emitting sensor for probing different volatile organic molecules (VOMs) due to an energy transfer between L and the dye. The composite can be used to distinguish the isomers of o‐, m‐, and p‐xylene and ethylbenzene using the emission‐peak‐height ratios of L to the dye as detectable signals, in which the readout signals are involved in the interactions between the dye@MOF composite and the guest analytes. Moreover, Rh6@NENU‐519 can serve as a luminescent switch for the detection of different aromatic compounds, like benzene, benzene substituted with different groups, and pyridine. In other words, the Rh6@NENU‐519 composite can be used as molecular decoder of the structural information of different VOMs into recognizable luminescent signals. Hopefully this work will open a new corridor to develop luminescent guest@MOF composites as sensors for practical applications. Dual‐emitting MOFs: The anionic luminescent MOF [(CH3)2NH2]2[(Zn2O)L]⋅ 5 DMF (NENU‐519, NENU=Northeast Normal University) was synthesized and is a rare example of an interpenetrated framework with a zeolite BCT topology. The dual‐emitting Rh6@NENU‐519 composite (Rh6=Rhodamine 6G) can detect volatile organic molecules and distinguishes between the isomers of o‐, m‐, and p‐xylene and ethylbenzene.
doi_str_mv 10.1002/chem.201603487
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Eur. J</addtitle><description>The luminescent MOF [(CH3)2NH2]2[(Zn2O)L]⋅5 DMF (NENU‐519, NENU=Northeast Normal University) with a zeolite BCT topology was successfully synthesized. It is a rare example of a two‐fold interpenetrated framework with a zeolite topology. NENU‐519 demonstrates the ability to selectively adsorb cationic dyes. Furthermore we developed Rh6@NENU‐519 (Rh6=Rhodamine 6G) as a dual‐emitting sensor for probing different volatile organic molecules (VOMs) due to an energy transfer between L and the dye. The composite can be used to distinguish the isomers of o‐, m‐, and p‐xylene and ethylbenzene using the emission‐peak‐height ratios of L to the dye as detectable signals, in which the readout signals are involved in the interactions between the dye@MOF composite and the guest analytes. Moreover, Rh6@NENU‐519 can serve as a luminescent switch for the detection of different aromatic compounds, like benzene, benzene substituted with different groups, and pyridine. In other words, the Rh6@NENU‐519 composite can be used as molecular decoder of the structural information of different VOMs into recognizable luminescent signals. Hopefully this work will open a new corridor to develop luminescent guest@MOF composites as sensors for practical applications. Dual‐emitting MOFs: The anionic luminescent MOF [(CH3)2NH2]2[(Zn2O)L]⋅ 5 DMF (NENU‐519, NENU=Northeast Normal University) was synthesized and is a rare example of an interpenetrated framework with a zeolite BCT topology. 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Eur. J</addtitle><date>2016-11-21</date><risdate>2016</risdate><volume>22</volume><issue>48</issue><spage>17298</spage><epage>17304</epage><pages>17298-17304</pages><issn>0947-6539</issn><eissn>1521-3765</eissn><coden>CEUJED</coden><abstract>The luminescent MOF [(CH3)2NH2]2[(Zn2O)L]⋅5 DMF (NENU‐519, NENU=Northeast Normal University) with a zeolite BCT topology was successfully synthesized. It is a rare example of a two‐fold interpenetrated framework with a zeolite topology. NENU‐519 demonstrates the ability to selectively adsorb cationic dyes. Furthermore we developed Rh6@NENU‐519 (Rh6=Rhodamine 6G) as a dual‐emitting sensor for probing different volatile organic molecules (VOMs) due to an energy transfer between L and the dye. The composite can be used to distinguish the isomers of o‐, m‐, and p‐xylene and ethylbenzene using the emission‐peak‐height ratios of L to the dye as detectable signals, in which the readout signals are involved in the interactions between the dye@MOF composite and the guest analytes. Moreover, Rh6@NENU‐519 can serve as a luminescent switch for the detection of different aromatic compounds, like benzene, benzene substituted with different groups, and pyridine. In other words, the Rh6@NENU‐519 composite can be used as molecular decoder of the structural information of different VOMs into recognizable luminescent signals. Hopefully this work will open a new corridor to develop luminescent guest@MOF composites as sensors for practical applications. Dual‐emitting MOFs: The anionic luminescent MOF [(CH3)2NH2]2[(Zn2O)L]⋅ 5 DMF (NENU‐519, NENU=Northeast Normal University) was synthesized and is a rare example of an interpenetrated framework with a zeolite BCT topology. The dual‐emitting Rh6@NENU‐519 composite (Rh6=Rhodamine 6G) can detect volatile organic molecules and distinguishes between the isomers of o‐, m‐, and p‐xylene and ethylbenzene.</abstract><cop>Germany</cop><pub>Blackwell Publishing Ltd</pub><pmid>27699899</pmid><doi>10.1002/chem.201603487</doi><tpages>7</tpages></addata></record>
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source Wiley Online Library Journals Frontfile Complete
subjects Aromatic compounds
Benzene
Cationic dyes
Chemistry
Composite materials
dual-emitting luminescent sensors
Dyes
Emission
Energy transfer
Ethylbenzene
Hydrocarbons
Isomers
Metal-organic frameworks
Organic chemistry
p-Xylene
Pyridines
Switches
Topology
VOCs
Volatile organic compounds
volatile organic molecules
Xylene
Zeolites
title An Anionic Interpenetrated Zeolite-Like Metal-Organic Framework Composite As a Tunable Dual-Emission Luminescent Switch for Detecting Volatile Organic Molecules
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