Water-Stable Carborane-Based Eu3+/Tb3+Metal-Organic Frameworks for Tunable Time-Dependent Emission Color and Their Application in Anticounterfeiting Bar-Coding
Water-Stable Carborane-Based Eu3+/Tb3+Metal-Organic Frameworks for Tunable Time-Dependent Emission Color and Their Application in Anticounterfeiting Bar-Coding
Luminescent lanthanide metal-organic frameworks (Ln-MOFs) have been shown to exhibit relevant optical properties of interest for practical applications, though their implementation still remains a challenge. To be suitable for practical applications, Ln-MOFs must be not only water stable but also printable, easy to prepare, and produced in high yields. Herein, we design and synthesize a series of mCB-EuyTb1-y (y = 0-1) MOFs using a highly hydrophobic ligand mCBL1: 1,7-di(4-carboxyphenyl)-1,7-dicarba-closo-dodecaborane. The new materials are stable in water and at high temperature. Tunable emission from green to red, energy transfer (ET) from Tb3+ to Eu3+, and time-dependent emission of the series of mixed-metal mCB-EuyTb1-y MOFs are reported. An outstanding increase in the quantum yield (QY) of 239% of mCB-Eu (20.5%) in the mixed mCB-Eu0.1Tb0.9 (69.2%) is achieved, along with an increased and tunable lifetime luminescence (from about 0.5 to 10 000 μs), all of these promoted by a highly effective ET process. The observed time-dependent emission (and color), in addition to the high QY, provides a simple method for designing high-security anticounterfeiting materials. We report a convenient method to prepare mixed-metal Eu/Tb coordination polymers (CPs) that are printable from water inks for potential applications, among which anticounterfeiting and bar-coding have been selected as a proof-of-concept.
4795–4808
Li, Zhen
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Núñez, Rosario
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Light, Mark E.
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Ruiz, Eliseo
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Teixidor, Francesc
d24b81b5-5d82-42ca-bd30-fd9c73d0ee68
Viñas, Clara
636b5d2e-fefb-4e83-93df-9615eee8e771
Ruiz-Molina, Daniel
7bd96167-103a-4b98-95a2-9dcc5e0b21a0
Roscini, Claudio
b02cc802-330a-4982-8a78-5be8f3f0ffef
Planas, José Giner
98b21b50-1c21-4265-bd3c-67afe28ef652
24 May 2022
Li, Zhen
12cdf2e2-b3a2-48ad-8201-dbdc8ceed67e
Núñez, Rosario
502e95d3-a1dc-4abd-9c4b-45f231d8614e
Light, Mark E.
cf57314e-6856-491b-a8d2-2dffc452e161
Ruiz, Eliseo
1994cd8f-3b20-4d3f-8a60-06c2765be53d
Teixidor, Francesc
d24b81b5-5d82-42ca-bd30-fd9c73d0ee68
Viñas, Clara
636b5d2e-fefb-4e83-93df-9615eee8e771
Ruiz-Molina, Daniel
7bd96167-103a-4b98-95a2-9dcc5e0b21a0
Roscini, Claudio
b02cc802-330a-4982-8a78-5be8f3f0ffef
Planas, José Giner
98b21b50-1c21-4265-bd3c-67afe28ef652
Li, Zhen, Núñez, Rosario, Light, Mark E., Ruiz, Eliseo, Teixidor, Francesc, Viñas, Clara, Ruiz-Molina, Daniel, Roscini, Claudio and Planas, José Giner
(2022)
Water-Stable Carborane-Based Eu3+/Tb3+Metal-Organic Frameworks for Tunable Time-Dependent Emission Color and Their Application in Anticounterfeiting Bar-Coding.
Chemistry of Materials, 34 (10), .
(doi:10.1021/acs.chemmater.2c00323).
Abstract
Luminescent lanthanide metal-organic frameworks (Ln-MOFs) have been shown to exhibit relevant optical properties of interest for practical applications, though their implementation still remains a challenge. To be suitable for practical applications, Ln-MOFs must be not only water stable but also printable, easy to prepare, and produced in high yields. Herein, we design and synthesize a series of mCB-EuyTb1-y (y = 0-1) MOFs using a highly hydrophobic ligand mCBL1: 1,7-di(4-carboxyphenyl)-1,7-dicarba-closo-dodecaborane. The new materials are stable in water and at high temperature. Tunable emission from green to red, energy transfer (ET) from Tb3+ to Eu3+, and time-dependent emission of the series of mixed-metal mCB-EuyTb1-y MOFs are reported. An outstanding increase in the quantum yield (QY) of 239% of mCB-Eu (20.5%) in the mixed mCB-Eu0.1Tb0.9 (69.2%) is achieved, along with an increased and tunable lifetime luminescence (from about 0.5 to 10 000 μs), all of these promoted by a highly effective ET process. The observed time-dependent emission (and color), in addition to the high QY, provides a simple method for designing high-security anticounterfeiting materials. We report a convenient method to prepare mixed-metal Eu/Tb coordination polymers (CPs) that are printable from water inks for potential applications, among which anticounterfeiting and bar-coding have been selected as a proof-of-concept.
Text
ms fcm-2022-00323p.R1_Revised
- Accepted Manuscript
Text
acs.chemmater.2c00323
- Version of Record
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Accepted/In Press date: 19 April 2022
Published date: 24 May 2022
Additional Information:
© 2022 The Authors. Published by American Chemical Society.
Identifiers
Local EPrints ID: 467340
URI: http://eprints.soton.ac.uk/id/eprint/467340
ISSN: 0897-4756
PURE UUID: b7029ed9-a264-49e0-99af-9bb98e5623b0
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Date deposited: 06 Jul 2022 17:10
Last modified: 06 Jun 2024 04:14
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Author:
Zhen Li
Author:
Rosario Núñez
Author:
Eliseo Ruiz
Author:
Francesc Teixidor
Author:
Clara Viñas
Author:
Daniel Ruiz-Molina
Author:
Claudio Roscini
Author:
José Giner Planas
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