Copper-based metal–organic framework nanoparticles for sensitive fluorescence detection of ferric ions

Abstract: A luminescent amino-functionalized metal–organic framework (Cu–MOFs) was synthesized from 2-aminoterephthalic acid and Cu(ii) ions by a solvothermal method.

“…This was attributed to the size exclusion of SO 4 2− and PO 4 3− being unable to fit into the framework channels. [277] Similar anion size-based intensity enhancement was observed in Zn-and Cd-MOFs containing 4,4′-bipyridine (bipy) and p-aminobenzoatein Fe 3+ , Hg 2+ and Cr 3+ FSOF (AIE) [268] Fe 3+ in water Cu-MOFs [269] Fe 3+ in water Eu-MOF/EDTA-NiAl-CLDH-M motor [270] Fe 3+ in water Tb-HIAAC [271] Fe 3+ in water Zn-DTA and Cd-DTA [272] Hg 2+ RuUiO-67 [273] Al 3+ and Lysine in HEPES buffer Cd-TCOOH [ Sulfonamide antibiotics FCS-1 [307] Nitrofuran, nitroimidazole, chloramphenicol, sulfonamide, and quinoline antibiotics TMPyPE@bio-MOF-1 [308] Nitro explosives and antibiotics in water Methyl red (MR) isomers (ortho, meta, and para) in ethanol MIL-100(Al) [310] Hippuric acid in urine MIL-121 [311] Polycyclic aromatic hydrocarbons Fe 3 O 4 @COF-(TpBD) [312] Mycotoxin ( Phenols and anilines in water LVMOF-1 [319] Enantioselective sensing (proline) S(R)-ZIF-78 h [320] Urea in human body fluids Ni-MIL-77 [321] Solvent molecules PU-1 and PU-2 [322] Bilirubin in human biofluids 1-NH 2 @THB [323] Glucose in blood PCN-222(Fe) [324] PhCHO and Fe 2+ in DMF Cd 0.5 (TBC)] n [325] Cardiac troponin I (cTn) in human bio-fluids Mn-MOF-PVC [326] o-and p-TCBQ isomers Tb@UiO-66-(COOH) 2 NH 2 [327] Pyrophosphate anion and antibiotics in water ZTMOF-1 [328] Trichloroacetic Adrenaline in human serum ZIF-67/NC/3DG [334] Chlorpyrifos in water and food samples Tb-MOF@PDDA-aggregated-AuNP [335] Tyrosine Ampicillin-binding aptamer in water (CdS/Eu-MOF) [343] Histamine and histidine in red wine and urine Cu-MOFs [344] n-methylformamide in urine and methylglyoxal in serum Tb 1− x Ybx@Cu-Hcbpp [345] Macrophage cells MOF-1114(Yb) and MOF-1140(Yb) [346] Nitrobenzene Mandelic acid, 1,2-cyclohexanediamine, 1-phenyleth...…”

Metal−Organic Frameworks for Liquid Phase Applications

“…This was attributed to the size exclusion of SO 4 2− and PO 4 3− being unable to fit into the framework channels. [277] Similar anion size-based intensity enhancement was observed in Zn-and Cd-MOFs containing 4,4′-bipyridine (bipy) and p-aminobenzoatein Fe 3+ , Hg 2+ and Cr 3+ FSOF (AIE) [268] Fe 3+ in water Cu-MOFs [269] Fe 3+ in water Eu-MOF/EDTA-NiAl-CLDH-M motor [270] Fe 3+ in water Tb-HIAAC [271] Fe 3+ in water Zn-DTA and Cd-DTA [272] Hg 2+ RuUiO-67 [273] Al 3+ and Lysine in HEPES buffer Cd-TCOOH [ Sulfonamide antibiotics FCS-1 [307] Nitrofuran, nitroimidazole, chloramphenicol, sulfonamide, and quinoline antibiotics TMPyPE@bio-MOF-1 [308] Nitro explosives and antibiotics in water Methyl red (MR) isomers (ortho, meta, and para) in ethanol MIL-100(Al) [310] Hippuric acid in urine MIL-121 [311] Polycyclic aromatic hydrocarbons Fe 3 O 4 @COF-(TpBD) [312] Mycotoxin ( Phenols and anilines in water LVMOF-1 [319] Enantioselective sensing (proline) S(R)-ZIF-78 h [320] Urea in human body fluids Ni-MIL-77 [321] Solvent molecules PU-1 and PU-2 [322] Bilirubin in human biofluids 1-NH 2 @THB [323] Glucose in blood PCN-222(Fe) [324] PhCHO and Fe 2+ in DMF Cd 0.5 (TBC)] n [325] Cardiac troponin I (cTn) in human bio-fluids Mn-MOF-PVC [326] o-and p-TCBQ isomers Tb@UiO-66-(COOH) 2 NH 2 [327] Pyrophosphate anion and antibiotics in water ZTMOF-1 [328] Trichloroacetic Adrenaline in human serum ZIF-67/NC/3DG [334] Chlorpyrifos in water and food samples Tb-MOF@PDDA-aggregated-AuNP [335] Tyrosine Ampicillin-binding aptamer in water (CdS/Eu-MOF) [343] Histamine and histidine in red wine and urine Cu-MOFs [344] n-methylformamide in urine and methylglyoxal in serum Tb 1− x Ybx@Cu-Hcbpp [345] Macrophage cells MOF-1114(Yb) and MOF-1140(Yb) [346] Nitrobenzene Mandelic acid, 1,2-cyclohexanediamine, 1-phenyleth...…”

Metal−Organic Frameworks for Liquid Phase Applications

“…As for the synthesis of Cu-MOFs, the conditions are the same as mentioned above according to the literature and made some modifications. 28,29 2.4. Characterization of the Cu-MOFs/CMFP.…”

“…To obtain Cu-MOFs/CMFP with 10 layer, 20 layer, 30 layer, and 40 layer coating of Cu-MOFs, the above procedure was repeated 10, 20, 30, and 40 times, respectively. As for the synthesis of Cu-MOFs, the conditions are the same as mentioned above according to the literature and made some modifications. , …”

Controllable Preparation of Cu-MOF-Coated Carboxyl Filter Paper for Simultaneous Removal of Organic Dye and Metal Ions

“…The amine functionalized Cu-ABDC MOF was synthesized using a solvothermal method reported previously in the literature. 65,66 For this, PVP (0.4 g) was dissolved ultrasonically in a mixed solvent comprising 8 mL DMF and 8 mL ethanol. Cu(NO 3 ) 2 Á3H 2 O (48.4 mg) and NH 2 -BDC or H 2 ABDC (10.86 mg) dissolved separately in 8 mL DMF were added into the above prepared solution.…”

Unravelling the catalytic potential of a magnetic CoFe₂O₄/Cu–ABDC MOF composite in the sustainable synthesis of 2H-indazole motifs