Ran Bu scite author profile

Positive cooperative binding, a phenomenon prevalent in biological processes, holds great appeal for the design of highly sensitive responsive molecules and materials. It has been demonstrated that metal–organic frameworks (MOFs) can show positive cooperative adsorption to the benefit of gas separation, but potential binding cooperativity is largely ignored in the study of sensory MOFs. Here, we report the first demonstration of positive cooperative protonation of a MOF and the relevant pH response in fluorescence and proton conduction. The MOF is built of Zr–O clusters and bipyridyl-based tetracarboxylate linkers and has excellent hydrolytic stability. It shows a unique pH response that features two synchronous abrupt turn-off and turn-on fluorescent transitions. The abrupt transitions, which afford high sensitivity to small pH fluctuations, are due to cooperative protonation of the pyridyl sites with a Hill coefficient of 1.6. The synchronous dual-emission response, which leads to visual color change, is ascribable to proton-triggered switching between (n, π*) and (π, π*) emissions. The latter emission can be quenched by electron donating anion-dependent through photoinduced electron transfer and ground-state charge transfer. Associated with cooperative protonation, the proton conductivity of the MOF is abruptly enhanced at low pH by two orders, but overhigh acid concentration is adverse because excessive anions can interrupt the conducting networks. Our work shows new perspectives of binding cooperativity in MOFs and should shed new light on the development of responsive fluorescent MOFs and proton conductive materials.

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Differentiable Detection of Volatile Amines with a Viologen-Derived Metal–Organic Material

Sui

Yang

et al. 2018

ACS Appl. Mater. Interfaces

140

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The development of selective sensing materials for amine detection has received considerable attentions because amines have high toxicity and exist widely. In this article, we demonstrate for the first time that a degree of discriminative detection of alkylamines can be achieved by a metal-organic coordination material. The material is derived from Cd and 4,4'-bipyridinium-1,1'-bis(phenylene-3-carboxylate), shows 1D channels lined with electron-deficient viologen chromophores, and exhibits different colors upon contact with amine vapors of different molecular sizes and types (primary, secondary, and tertiary). The vapochromism is attributable to electron transfer from the amine group to viologen. The discrimination between amines is because the analyte-receptor interactions, which either directly mediate or indirectly affect electron transfer, are influenced by the number of the N-H bonds in the amine molecule, the size of the amine molecule relative to the receptor channel and the steric hindrance for the electron donor-acceptor contacts. The material also shows reversible photo- and hydrochromism owing to stimuli-induced reversible electron transfer. The compound can be deposited in paper simply by spraying the mixture solution of the starting metal salt and the ligand. The paper can be used as portable test strips for visual and differentiable detection of amines and as erasable inkless printing medium.

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Interpenetration-Enabled Photochromism and Fluorescence Photomodulation in a Metal–Organic Framework with the Thiazolothiazole Extended Viologen Fluorophore

Guo

Yin

et al. 2019

Inorg. Chem.

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A novel metal−organic framework (MOF), formulated as [Cd 2 (TTVTC)Cl 2 (H 2 O) 3 ]•2H 2 O (1), was synthesized from a tetracarboxylate ligand ([TTVTC] 2− ) functionalized with the thiazolothiazole extended viologen (TTV 2+ ) fluorophore. The MOF features three-dimensional (10,3)-d frameworks with 6-fold interpenetration. The MOF exhibits reversible photochromism, due to photoinduced electron transfer from carboxylate to TTV 2+ . The photoactivity benefits from the electron donor−acceptor contacts enabled by mutual interpenetration of the frameworks. This is the first demonstration of photochromism in TTV 2+ derivatives. In addition, the fluorescence arising from the TTV 2+ fluorophore can be reversibly modulated during the photochromic process. The work demonstrates the great potential of extended viologen based ligands in the construction of MOFs with dual photomodulable optical properties, which could find future applications in photoelectronics.

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A pH-Sensing Fluorescent Metal–Organic Framework: pH-Triggered Fluorescence Transition and Detection of Mycotoxin

Yang

Liu

et al. 2020

Inorg. Chem.

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Due to its great relevance to environmental, biological, and chemical processes, the precise detection of pH or acidic/basic species is an ongoing and imperative need. In this context, pH-sensitive luminescent systems are highly desired. We reported a three-dimensional Zn(II) MOF synthesized from a bipyridyl-tetracarboxylic ligand and composed of 4-fold interpenetrated diamond frameworks. Because the steric hindrance in the ligand prevents metal coordination with the pyridyl group, the MOF features free basic N sites accessible to the small H + ions, which renders pH responsivity. The aqueous dispersion exhibits an abrupt, high-contrast, and reversible on−off fluorescence transition in the narrow pH range of 5.4−6.2. The sensitive bistable system can be used for the precise monitoring of pH within the range and for use as a pH-triggered optical switch. The responsive mechanism through pyridyl protonation is collaboratively supported by data fitting, absorption spectra, and molecular orbital calculations. In particular, spectral and theoretical analyses reveal the destruction of n → π* transitions and the appearance of intramolecular charge-transfer transitions upon pyridyl protonation. Moreover, by virtue of the pH-responsive fluorescence, the MOF shows appealing sensing performance for the detection of 3-nitropropionic acid, a major mycotoxin in moldy sugar cane.

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Synthesis and Acid-Responsive Properties of a Highly Porous Vinylene-Linked Covalent Organic Framework

Zhang

Liu

et al. 2021

ACS Appl. Mater. Interfaces

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The recently emerging vinylene-linked covalent organic frameworks (VCOFs) stand out from other COFs with exceptional chemical stability and favorable light-emitting properties, promising sensing applications for acids/bases or in strong acidic/basic conditions. Here we systematically investigated the reversible color and fluorescent response of a VCOF functionalized with pyridyl groups to acids/pH. The COF was synthesized with a record surface area for VCOFs and shows reversible hydrochromic and acidochromic behaviors and concomitant fluorescence quenching. The mechanisms were probed with systematical experimental comparison with relevant COFs and model molecules in combination with orbital analysis. The response is related to significant electronic changes in the ground and photoexcited states as a result of protonation or hydrogen bonding at pyridyl sites. The COF in aqueous dispersion displays a reversible fluorescence transition with pH change, which follows the Hill equation for multisite protonation. The COF-modified test paper shows immediate and remarkable color change and fluorescence turn-off/on when alternately exposed to HCl and NH3 gases. The work illustrates the great potential of developing highly robust sensory COFs through the vinylene approach.

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Selective chemochromic and chemically-induced photochromic response of a metal–organic framework

Sui

Guo

et al. 2020

Chem. Commun.

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Schiff-base molecules and COFs as metal-free catalysts or silver supports for carboxylation of alkynes with CO₂

Zhang

Liu

et al. 2021

Green Chem.

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Distinct and Selective Amine- and Anion-Responsive Behaviors of an Electron-Deficient and Anion-Exchangeable Metal–Organic Framework

Guo

Yang

et al. 2020

ACS Appl. Mater. Interfaces

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Smart materials that respond to chemical stimuli with color or luminescence changes are highly desirable for dailylife and high-tech applications. Here, we report a novel porous metal−organic framework (MOF) that shows multiple, selective, and discriminative responsive properties owing to the combination of different functional ingredients [tripyridinium chromogen, Eu(III) luminophore, cationic framework, and special porous structure]. The MOF contains two interpenetrated three-dimensional cationic coordination networks built of a tetrahedral [Eu 4 (μ 3 -OH) 4 ] cluster and a tripyridinium-tricarboxylate zwitterionic linker. It shows reversible and discriminative chromic response to aliphatic amines and aniline through different host− guest interactions between electron-deficient pyridinium and electron-rich amines. The size-and shape-selective response to aliphatic amines is ascribed to the radical formation through host−guest electron transfer, whereas the response to aniline is ascribed to the formation of sandwich-type acceptor−donor− acceptor complexes. The MOF is capable of reversible anion exchange with various anions and shows selective and discriminative ionochromic response to iodide, bromide, and thiocyanate, which is attributed to charge-transfer complexation. The above chromic behaviors are accompanied by efficient quenching of Eu(III) photoluminescence. The MOF represents a multi-stimuli dual-output responsive system. It can be used for discrimination and identification of anions and amines. The potential use in invisible printing, reusable sensory films, and optical switches was demonstrated by the ink and the membrane made of the MOF and organic polymers.

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Ran Bu

Positive Cooperative Protonation of a Metal–Organic Framework: pH-Responsive Fluorescence and Proton Conduction

Differentiable Detection of Volatile Amines with a Viologen-Derived Metal–Organic Material

Interpenetration-Enabled Photochromism and Fluorescence Photomodulation in a Metal–Organic Framework with the Thiazolothiazole Extended Viologen Fluorophore

A pH-Sensing Fluorescent Metal–Organic Framework: pH-Triggered Fluorescence Transition and Detection of Mycotoxin

Synthesis and Acid-Responsive Properties of a Highly Porous Vinylene-Linked Covalent Organic Framework

Selective chemochromic and chemically-induced photochromic response of a metal–organic framework

Schiff-base molecules and COFs as metal-free catalysts or silver supports for carboxylation of alkynes with CO₂

Distinct and Selective Amine- and Anion-Responsive Behaviors of an Electron-Deficient and Anion-Exchangeable Metal–Organic Framework

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Ran Bu

Positive Cooperative Protonation of a Metal–Organic Framework: pH-Responsive Fluorescence and Proton Conduction

Differentiable Detection of Volatile Amines with a Viologen-Derived Metal–Organic Material

Interpenetration-Enabled Photochromism and Fluorescence Photomodulation in a Metal–Organic Framework with the Thiazolothiazole Extended Viologen Fluorophore

A pH-Sensing Fluorescent Metal–Organic Framework: pH-Triggered Fluorescence Transition and Detection of Mycotoxin

Synthesis and Acid-Responsive Properties of a Highly Porous Vinylene-Linked Covalent Organic Framework

Selective chemochromic and chemically-induced photochromic response of a metal–organic framework

Schiff-base molecules and COFs as metal-free catalysts or silver supports for carboxylation of alkynes with CO2

Distinct and Selective Amine- and Anion-Responsive Behaviors of an Electron-Deficient and Anion-Exchangeable Metal–Organic Framework

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Product

Resources

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Schiff-base molecules and COFs as metal-free catalysts or silver supports for carboxylation of alkynes with CO₂