Zi-Hao Zhu scite author profile

Due to their important role in biological systems, it is urgent to develop a material that can rapidly and sensitively detect the concentration of Fe 3+ and Al 3+ ions. In this work, a brand-new Cd II -based metal−organic framework [Cd-(BTBD) 2 (AIC)] n (JXUST-18, BTBD = 4,7-bis(1H-1,2,4-triazol-1-yl)-2,1,3-benzothiadiazole and H 2 AIC = 5-aminoisophthalic acid) with a 4-connected sql topology was designed and synthesized. The symmetrical Cd II centers are linked by AIC 2− ligands with μ 3 -η 1 :η 1 :η 1 :η 1 coordination mode to form a [Cd 2 (COO) 2 ] secondary building unit (SBU). The contiguous SBUs are further connected by BTBD ligands to form a twodimensional (2D) layer structure. JXUST-18 can remain stable in aqueous solutions with pH values of 3−12 or in boiling water. Luminescent experiments suggest that JXUST-18 displays more than eightfold fluorescence enhancement in the presence of Fe 3+ and Al 3+ ions, and the detection limits for Fe 3+ and Al 3+ ions are 0.196 and 0.184 μM, respectively. Furthermore, the change in luminescence color is uncomplicatedly distinguishable with the naked eye under ultraviolet light at 365 nm. In addition, a series of devices based on JXUST-18 including fluorescence test strips, lamp beads, and composite films were developed to detect metal ions via visual changes in luminescence color. Significantly, JXUST-18 is a rare MOF-based turn-on fluorescence sensor for the detection of Fe 3+ ions. The theoretical calculation suggests that the complexation of Fe 3+ /Al 3+ ions and the −NH 2 group contributes to fluorescence enhancement.

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Controllable Synthesis of Tb^III Metal–Organic Frameworks with Reversible Luminescence Sensing for Benzaldehyde Vapor

Wang

Gao

et al. 2023

Inorg. Chem.

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Two novel lanthanide metal–organic frameworks (MOFs) with the formulas [Tb(bidc)(Hbidc)(H2O)] n (JXUST-20) and {[Tb3(bidc)4(HCOO)(DMF)]·solvents} n (JXUST-21) were synthesized based on 2,1,3-benzothiadiazole-4,7-dicarboxylic acid (H2BTDC) under solvothermal conditions. Interestingly, benzimidazole-4,7-dicarboxylic acid (H2bidc) was formed in situ using H2BTDC as the starting material. The self-assembly process of the targeted MOFs with different topological structures can be controlled by the solvents and concentration of the reactants. Luminescence experiments show that JXUST-20 and JXUST-21 exhibit strong yellow-green emission. JXUST-20 and JXUST-21 can selectively sense benzaldehyde (BzH) via a luminescence quenching effect with detection limits of 15.3 and 1.44 ppm, respectively. In order to expand the practical application of MOF materials, mixed-matrix membranes (MMMs) have been constructed by mixing targeted MOFs and poly(methyl methacrylate) in a N,N-dimethylformamide (DMF) solution, which can also be used for BzH vapor sensing. Therefore, the first case of MMMs derived from TbIII MOFs has been developed for the reversible detection of BzH vapor, providing a simple and efficient platform for the future detection of volatile organic compounds.

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Solvothermal synthesis and device fabrication of a Eu³⁺-based metal–organic framework as a turn-on and blue-shift fluorescence sensor toward Cr³⁺, Al³⁺ and Ga³⁺

et al. 2023

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A highly stable chain-based Eu^III metal–organic framework as a turn-on and blue-shift luminescent sensor for dipicolinic acid

et al. 2023

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Enhanced Heterogeneous Catalytic Activity of Peroxymonosulfate for Rhodamine B Degradation via a Co^II-Based Metal–Organic Framework

Zhang

Chai

et al. 2023

Inorg. Chem.

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A stable metal–organic framework with the formula {[Co(BBZB)(IPA)]·H2O} n (JXUST-23, BBZB = 4,7-bis(1H-benzimidazole-1-yl)-2,1,3-benzothiadiazole and H2IPA = isophthalic acid) was constructed by incorporating Co2+ ions and two conjugated ligands under solvothermal conditions. JXUST-23 takes a dinuclear cluster-based layer structure with a porosity of 2.7%. In this work, JXUST-23 was used to activate peroxymonosulfate (PMS) to degrade rhodamine B (RhB), a difficult-to-degrade pollutant in water. Compared with pure PMS or JXUST-23, the JXUST-23/PMS system displays the best degradation ability of RhB in neutral solution. When the mass ratio of JXUST-23 to PMS was 2:3, 99.72% of RhB (50 ppm) was removed within 60 min, and the reaction rate was 0.1 min–1. Furthermore, free radical quenching experiments show that SO4 •– was the main free radical during the process of RhB degradation. In addition, JXUST-23 exhibits good reusability for the degradation of the organic dye RhB, making it a potential candidate for environmental remediation.

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Zi-Hao Zhu

Fabrication and DFT Calculation of Amine-Functionalized Metal–Organic Framework as a Turn-On Fluorescence Sensor for Fe³⁺ and Al³⁺ Ions

Controllable Synthesis of Tb^III Metal–Organic Frameworks with Reversible Luminescence Sensing for Benzaldehyde Vapor

Solvothermal synthesis and device fabrication of a Eu³⁺-based metal–organic framework as a turn-on and blue-shift fluorescence sensor toward Cr³⁺, Al³⁺ and Ga³⁺

A highly stable chain-based Eu^III metal–organic framework as a turn-on and blue-shift luminescent sensor for dipicolinic acid

Enhanced Heterogeneous Catalytic Activity of Peroxymonosulfate for Rhodamine B Degradation via a Co^II-Based Metal–Organic Framework

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Zi-Hao Zhu

Fabrication and DFT Calculation of Amine-Functionalized Metal–Organic Framework as a Turn-On Fluorescence Sensor for Fe3+ and Al3+ Ions

Controllable Synthesis of TbIII Metal–Organic Frameworks with Reversible Luminescence Sensing for Benzaldehyde Vapor

Solvothermal synthesis and device fabrication of a Eu3+-based metal–organic framework as a turn-on and blue-shift fluorescence sensor toward Cr3+, Al3+ and Ga3+

A highly stable chain-based EuIII metal–organic framework as a turn-on and blue-shift luminescent sensor for dipicolinic acid

Enhanced Heterogeneous Catalytic Activity of Peroxymonosulfate for Rhodamine B Degradation via a CoII-Based Metal–Organic Framework

Contact Info

Product

Resources

About

Fabrication and DFT Calculation of Amine-Functionalized Metal–Organic Framework as a Turn-On Fluorescence Sensor for Fe³⁺ and Al³⁺ Ions

Controllable Synthesis of Tb^III Metal–Organic Frameworks with Reversible Luminescence Sensing for Benzaldehyde Vapor

Solvothermal synthesis and device fabrication of a Eu³⁺-based metal–organic framework as a turn-on and blue-shift fluorescence sensor toward Cr³⁺, Al³⁺ and Ga³⁺

A highly stable chain-based Eu^III metal–organic framework as a turn-on and blue-shift luminescent sensor for dipicolinic acid

Enhanced Heterogeneous Catalytic Activity of Peroxymonosulfate for Rhodamine B Degradation via a Co^II-Based Metal–Organic Framework