2020
DOI: 10.1002/cjoc.202000364
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Monodentate AIEgen Anchored on Metal‐Organic Framework for Fast Fluorescence Sensing of Phosphate

Abstract: Metal-organic frameworks | Fluorescent probes | Phosphate | Monodentate ligand | AIEgen Herein, a novel sensor (TPE-UiO-66) was designed via anchoring monodentate tetraphenylethylene (TPE) onto UiO-66 framework. The combination of the distinct aggregation-induced emission (AIE) of TPE and the easy replacement of monodentate linker by guest phosphate, makes TPE-UiO-66 an ideal platform for sensing HPO 4 2-. Experimental results indicate that TPE-UiO-66 can selectively sense HPO 4 2from other common anions. The … Show more

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Cited by 26 publications
(8 citation statements)
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“…As a new class of hybrid materials assembled from metal nodes and organic linkers, metal–organic frameworks (MOFs) are scientifically compelling in gas storage, separation, sensing, catalysis, and so forth. Their tunability in terms of chemical composition and structure renders MOFs as promising candidate materials for radionuclide sensing. Incorporating photoluminescent (PL) metal centers or organic phosphors within the frameworks endows sensing capacities of MOFs toward the target radionuclides via emission alteration of the host. , Furthermore, phosphors can be orderly and spatially distributed in rigid luminescent MOFs, eliminating luminescence quenching induced by agglomeration and boosting the detection sensitivity. , In addition, the feasible in-and-out channels and tailorable binding site of MOFs allow for sensing of target radionuclides with high selectivity. , However, only a few MOFs for sensing of UO 2 2+ have been documented. Those for detection of the I – anion have been barely reported, and the most relevant cases thus far include Ln 2 Zn­(L) 3 (H 2 O) 4 ]­(NO 3 ) 2 (Ln = Eu or Tb), [Eu 4 (OH) 4 (tcbpp) 2 (H 2 O) 9 ]­Cl 8 , Cd 2.5 (PDA)­(tz) 3 , and Tb­(cpia)­(H 2 O) 2 . Moreover, the hydrolytic stability, a key parameter of the chemosensor for practical applications under environmentally relevant conditions, was not investigated in most studies. …”
Section: Introductionmentioning
confidence: 88%
“…As a new class of hybrid materials assembled from metal nodes and organic linkers, metal–organic frameworks (MOFs) are scientifically compelling in gas storage, separation, sensing, catalysis, and so forth. Their tunability in terms of chemical composition and structure renders MOFs as promising candidate materials for radionuclide sensing. Incorporating photoluminescent (PL) metal centers or organic phosphors within the frameworks endows sensing capacities of MOFs toward the target radionuclides via emission alteration of the host. , Furthermore, phosphors can be orderly and spatially distributed in rigid luminescent MOFs, eliminating luminescence quenching induced by agglomeration and boosting the detection sensitivity. , In addition, the feasible in-and-out channels and tailorable binding site of MOFs allow for sensing of target radionuclides with high selectivity. , However, only a few MOFs for sensing of UO 2 2+ have been documented. Those for detection of the I – anion have been barely reported, and the most relevant cases thus far include Ln 2 Zn­(L) 3 (H 2 O) 4 ]­(NO 3 ) 2 (Ln = Eu or Tb), [Eu 4 (OH) 4 (tcbpp) 2 (H 2 O) 9 ]­Cl 8 , Cd 2.5 (PDA)­(tz) 3 , and Tb­(cpia)­(H 2 O) 2 . Moreover, the hydrolytic stability, a key parameter of the chemosensor for practical applications under environmentally relevant conditions, was not investigated in most studies. …”
Section: Introductionmentioning
confidence: 88%
“…Gao et al prepared TPE‐UIO‐66 by anchoring single‐dentate TPE ligand (TPE‐COOH) on UiO‐66 framework. [ 143 ] Since HPO 4 2− has a higher affinity for Zr than TPE‐COOH, it is able to exchange AIEgens ligands to form P–O–Zr coordination bonds. TPE‐COOH replaced by HPO 4 2− dissolved and turned off the fluorescence of TPE‐UiO‐66.…”
Section: Mofs‐based Aie Materialsmentioning
confidence: 99%
“…In NH 4 + and HPO 4 2− ion fluorescence detection, the Lu 36 group developed a Zn-MOF material for the simple and rapid detection of NH 4 + in water with a low LOD in the range of 0–3 mM, the Kavallieratos 37 group based on 1,3,5-triethylbenzene material synthesized a NH 4 + fluorescence sensor with remarkable sensing selectivity. The Zhao 38 group designed a novel sensor via anchoring monodentate tetraphenylethylene (TPE) onto a UiO-66 framework, which can selectively sense HPO 4 2− from other common anions. The Li 39 group uses a nano-fluorescence sensor to monitor HPO 4 2− and has practical applications in environmental water samples or cell imaging.…”
Section: Introductionmentioning
confidence: 99%