Quaternary Ammonium-Mediated Delamination of Europium-Based Metal–Organic Framework into Ultrathin Nanosheets for the Selective Photoelectrochemical Sensing of Fe<sup>3+</sup>

Liu, Jiaqiang; Yu, Xiandi; Xu, Yan; Zhao, Yifang; Li, Dan

doi:10.1021/acs.inorgchem.1c02895

Cited by 14 publications

(8 citation statements)

References 33 publications

(47 reference statements)

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“…Template reagents of different sizes and structures affect the pore structure of MOFs . Li et al achieved structural stratification in rare-earth-based MOFs by introducing quaternary ammonium ions with different chain lengths . Intercalation behaviors are tuned by the spatial structures of ammonium ions, and CTAB with the longest chain can lead to the most significant stratification of MIL-78 crystals.…”

Section: Introductionmentioning

confidence: 99%

“…34 Li et al achieved structural stratification in rare-earth-based MOFs by introducing quaternary ammonium ions with different chain lengths. 35 Intercalation behaviors are tuned by the spatial structures of ammonium ions, and CTAB with the longest chain can lead to the most significant stratification of MIL-78 crystals. Therefore, using quaternary ammonium templates may afford a lesson for structure tuning of UPFs.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Regulating the Porosity of Uranyl Phosphonate Frameworks with Quaternary Ammonium: Structure, Characterization, and Fluorescent Temperature Sensors

Zhao

et al. 2022

Inorg. Chem.

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Regulating the porosity of metal phosphonate frameworks is still challenging, even though this is not an issue for carboxylate-based metal−organic frameworks (MOFs). Quaternary ammonium cations are common template reagents widely used for structure control. However, it is not successful for uranyl phosphonate frameworks (UPFs) because the large volume sizes of templates make it challenging to enter the channels constructed by phosphonate ligands with small pore sizes and low dimensions. In this work, three new porous three-dimensional UPFs were synthesized using the phosphonate ligand and template reagents with the same geometry, namely, (TEA) 2 (UO 2 ) 3 (TppmH 4 ) 2 • 2H 2 O (UPF-106), (TPA) 2 (UO 2 ) 3 (TppmH 4 ) 2 (UPF-107), and (TBA) 2 (UO 2 ) 5 (TppmH 2 ) 2 (H 2 O) 2 •4H 2 O (UPF-108). The porosity of the UPFs in this work showed a positive relation with the sizes of the template ammonium cations. Thermogravimetric analysis and infrared and ultraviolet spectroscopy were performed. The variable-temperature fluorescence spectra of the three compounds showed that the fluorescence intensity has an excellent relation to temperature with a potential application as fluorescence temperature sensors.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Regulating the Porosity of Uranyl Phosphonate Frameworks with Quaternary Ammonium: Structure, Characterization, and Fluorescent Temperature Sensors

Zhao

et al. 2022

Inorg. Chem.

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“…The rare earth metal centre in this structure is coordinated to six water molecules in addition to the carboxylic acid groups from the three ligands. Then, the components of the La(BTC)Á6H 2 O structure gradually decrease to disappear with lanthanide contraction, and the MIL-78(Y) (CCDC 1109360 †) [29][30][31] (the characteristic peaks are marked in Fig. 4a with a yellow background and the coordinated structure is shown in Fig.…”

Section: Crystal Structure Analysismentioning

confidence: 99%

“…The extraordinary water stability of the TJU-66 series materials provides them with potential for applications such as trace detection, molecular identification, potential fingerprinting, etc. 23,30,31 The TJU-66 (RE/Sc) (RE= Sm, Eu, Tb or Dy) with bright visible light emission was dispersed in water for 90 days. The PXRD patterns and FTIR absorption spectra show no significant changes in structure (Fig.…”

Section: Photophysical Property Studymentioning

confidence: 99%

Mechano-thermochemical synthesis of rare-earth metal–organic frameworks with solvent-free coordination for visible and near-infrared emission

Liu

Chen

et al. 2022

Mater. Chem. Front.

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“…Metal–organic frameworks (MOFs), constructed by self-assemble of organic ligands and metal ions or metal nodes, − have drawn increased attention due to their potential applications in gas storage, molecular separations, and chemical sensing, as well as catalysis . Especially, MOFs have attracted great attention in the field of ratiometric fluorescence sensing. − Considering that the luminescence of MOFs could originate from ligands, metal ions, the charge interaction between ligands and metal ions, and guest molecules, the multiple emission centers of MOFs can be mainly obtained by introducing single or multiple lanthanide ions, , luminescent guest molecules, , carbon dots, Ru(bpy) 3 2+ , and different organic linkers, along with lanthanide-based MOFs (Ln-MOFs) with single organic ligand and lanthanide ions. , Among them, most of the strategies generally require a complex post-synthetic modification process; thus, Ln-MOFs that are synthesized directly can be constructed as an ideal ratiometric fluorescence platform.…”

Section: Introductionmentioning

confidence: 99%

Novel Lanthanide-Based Metal–Organic Framework Isomer as a Double Ratiometric Fluorescent Probe for Vanillymandelic Acid

Fan

Liu²,

Cheng

et al. 2023

ACS Appl. Mater. Interfaces

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The concentration of vanillymandelic acid (VMA) in urine is closely related with pheochromocytoma diagnosis. Thus, it is essential to develop more accurate and convenient fluorescence sensing strategies toward VMA. Until now, the design of double ratiometric detection methods for VMA was still in the unexplored stage. In this work, novel Ln3+-based metal–organic frameworks (QBA-Eu and QBA-Gd0.875Eu0.125) possessing dual emission peaks was fabricated successfully, which served as isomers of YNU-1 and exhibited more excellent water stability in fluorescence and structure than the ones of YNU-1. The formation of the complex between QBA ligands and VMA molecules via hydrogen bonds within QBA-Eu frameworks produced a new emission band centered at 450 nm and resulted in the decline of monomer emission intensity for QBA at 390 nm. Owing to the reduced energy gap [ΔE (S1 – T1)], the antenna effect was hampered and luminescence of Eu3+ ions also decreased. The developed double ratiometric (I 615nm/I 475nm, I 390nm/I 475nm) fluorescence sensors based on QBA-Eu and QBA-Gd0.875Eu0.125 possessed the advantages of fast response (4 min), low detection limits (0.58 and 0.51; 0.22 and 0.31 μM), and wide linear ranges (2–100 and 2–80 μM), which met the requirements of pheochromocytoma diagnosis. We also applied them to determine VMA in an artificial urine sample and diluted human urine sample and obtained satisfactory results. They will become prospective fluorescence sensing platforms for VMA.

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Quaternary Ammonium-Mediated Delamination of Europium-Based Metal–Organic Framework into Ultrathin Nanosheets for the Selective Photoelectrochemical Sensing of Fe³⁺

Cited by 14 publications

References 33 publications

Regulating the Porosity of Uranyl Phosphonate Frameworks with Quaternary Ammonium: Structure, Characterization, and Fluorescent Temperature Sensors

Regulating the Porosity of Uranyl Phosphonate Frameworks with Quaternary Ammonium: Structure, Characterization, and Fluorescent Temperature Sensors

Mechano-thermochemical synthesis of rare-earth metal–organic frameworks with solvent-free coordination for visible and near-infrared emission

Novel Lanthanide-Based Metal–Organic Framework Isomer as a Double Ratiometric Fluorescent Probe for Vanillymandelic Acid

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Quaternary Ammonium-Mediated Delamination of Europium-Based Metal–Organic Framework into Ultrathin Nanosheets for the Selective Photoelectrochemical Sensing of Fe3+

Cited by 14 publications

References 33 publications

Regulating the Porosity of Uranyl Phosphonate Frameworks with Quaternary Ammonium: Structure, Characterization, and Fluorescent Temperature Sensors

Regulating the Porosity of Uranyl Phosphonate Frameworks with Quaternary Ammonium: Structure, Characterization, and Fluorescent Temperature Sensors

Mechano-thermochemical synthesis of rare-earth metal–organic frameworks with solvent-free coordination for visible and near-infrared emission

Novel Lanthanide-Based Metal–Organic Framework Isomer as a Double Ratiometric Fluorescent Probe for Vanillymandelic Acid

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Quaternary Ammonium-Mediated Delamination of Europium-Based Metal–Organic Framework into Ultrathin Nanosheets for the Selective Photoelectrochemical Sensing of Fe³⁺