A 2D copper(I) metal-organic framework: Synthesis, structure and luminescence sensing for cupric, ferric, chromate and TNP

A multi-responsive Cu-MOF {[CuI2(ttpa)2][CuII (bptc)]•3H2O•DMF}n (1•3H2O•DMF) was synthesized using hydrothermal method (ttpa = tris(4-(1,2,4-triazol-1-yl)phenyl)amine, H4bptc = 3,3′,4,4′-biphenyltetracarboxylic acid), and characterized by elemental analysis, IR spectra, single-crystal and powder X-...

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Published in:Dyes and pigments 2020-04, Vol.175, p.108159, Article 108159
Main Authors: Qian, Lin-Lu, Wang, Zhi-Xiang, Ding, Jian-Gang, Tian, Hai-Xin, Li, Ke, Li, Bao-Long, Li, Hai-Yan
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Language:English
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Chromate detection
Cupric ion detection
Metal-organic frameworks luminescence sensing
TNP detection
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description A multi-responsive Cu-MOF {[CuI2(ttpa)2][CuII (bptc)]•3H2O•DMF}n (1•3H2O•DMF) was synthesized using hydrothermal method (ttpa = tris(4-(1,2,4-triazol-1-yl)phenyl)amine, H4bptc = 3,3′,4,4′-biphenyltetracarboxylic acid), and characterized by elemental analysis, IR spectra, single-crystal and powder X-ray diffraction analysis, TGA, luminescence and XPS. 1 exhibits the (3,3)-connected 63-hcb topologic cationic networks [CuI2(ttpa)2]n encapsulated the [CuII2(bptc)2]4- dimeric anions. 1 is a good luminescence sensor for multi-detection, sensitivity and recyclability of Cu2+, Fe3+, Cr2O72−, CrO42− and TNP. 1 shows the highest Ksv 2.460 × 105 M−1 for detection of Cu2+ of MOFs sensors and the lowest detection limit 0.062 μM (3.9 ppb) for MOFs sensors, which is obvious lower than the permissible concentrations 2.0 μM (1.3 ppm) and 3.1 μM (2.0 ppm) in drinking water determined by the US EPA and WHO. 1 exhibits the high Ksv 5.350 × 104 M−1 for detection of Cr2O72− and 5.311 × 104 M−1 for CrO42−, and the low detection limit 0.058 μM (13.0 ppb) for Cr2O72− and 0.070 μM (8.1 ppb) for CrO42−, which is below the acceptable limit for the drinking water standard (total chromium 100 ppb by the US EPA). 1 also exhibits the high Ksv 6.646 × 104 M−1 and the low detection limit 0.22 μM (50 ppb) for detection of TNP. 1 exhibits high photocatalytic efficiency for degradation of methylene blue under visible light irradiation. A Cu-MOF was synthesized and characterized by elemental analysis, IR spectra, UV–vis spectra, single-crystal and powder X-ray diffraction analysis, TGA, XPS, and luminescence. 1 shows 2D cationic networks [CuI2(ttpa)2]n encapsulated the [CuII2(bptc)2]4- dimeric anions. 1 is a good luminescence sensor for multi-detection, sensitivity and recyclability of Cu2+, Fe3+, Cr2O72−, CrO42− and TNP. 1 shows the highest Ksv 2.460 × 105 M−1 for detection of Cu2+ of MOFs sensors and the lowest detection limit 0.062 μM (3.9 ppb). [Display omitted] •IR spectra, UV–vis spectra, X-ray diffraction analysis, TGA, XPS, and luminescence.•Luminescence sensor for detection of Cu2+, Fe3+, Cr2O72−, CrO42− and TNP.•The highest Ksv 2.460 × 105 M−1 and the lowest detection limit 0.062 μM for detection of Cu2+ for MOFs sensors.•The high Ksv 5.350 × 104 M−1 for detection of Cr2O72− and 5.311 × 104 M−1 for CrO42−.•The high Ksv 6.646 × 104 M−1 and low detection 0.22 μM for detection of TNP.
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A Cu-MOF was synthesized and characterized by elemental analysis, IR spectra, UV–vis spectra, single-crystal and powder X-ray diffraction analysis, TGA, XPS, and luminescence. 1 shows 2D cationic networks [CuI2(ttpa)2]n encapsulated the [CuII2(bptc)2]4- dimeric anions. 1 is a good luminescence sensor for multi-detection, sensitivity and recyclability of Cu2+, Fe3+, Cr2O72−, CrO42− and TNP. 1 shows the highest Ksv 2.460 × 105 M−1 for detection of Cu2+ of MOFs sensors and the lowest detection limit 0.062 μM (3.9 ppb). 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A Cu-MOF was synthesized and characterized by elemental analysis, IR spectra, UV–vis spectra, single-crystal and powder X-ray diffraction analysis, TGA, XPS, and luminescence. 1 shows 2D cationic networks [CuI2(ttpa)2]n encapsulated the [CuII2(bptc)2]4- dimeric anions. 1 is a good luminescence sensor for multi-detection, sensitivity and recyclability of Cu2+, Fe3+, Cr2O72−, CrO42− and TNP. 1 shows the highest Ksv 2.460 × 105 M−1 for detection of Cu2+ of MOFs sensors and the lowest detection limit 0.062 μM (3.9 ppb). 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A Cu-MOF was synthesized and characterized by elemental analysis, IR spectra, UV–vis spectra, single-crystal and powder X-ray diffraction analysis, TGA, XPS, and luminescence. 1 shows 2D cationic networks [CuI2(ttpa)2]n encapsulated the [CuII2(bptc)2]4- dimeric anions. 1 is a good luminescence sensor for multi-detection, sensitivity and recyclability of Cu2+, Fe3+, Cr2O72−, CrO42− and TNP. 1 shows the highest Ksv 2.460 × 105 M−1 for detection of Cu2+ of MOFs sensors and the lowest detection limit 0.062 μM (3.9 ppb). [Display omitted] •IR spectra, UV–vis spectra, X-ray diffraction analysis, TGA, XPS, and luminescence.•Luminescence sensor for detection of Cu2+, Fe3+, Cr2O72−, CrO42− and TNP.•The highest Ksv 2.460 × 105 M−1 and the lowest detection limit 0.062 μM for detection of Cu2+ for MOFs sensors.•The high Ksv 5.350 × 104 M−1 for detection of Cr2O72− and 5.311 × 104 M−1 for CrO42−.•The high Ksv 6.646 × 104 M−1 and low detection 0.22 μM for detection of TNP.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.dyepig.2019.108159</doi><oa>free_for_read</oa></addata></record>
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subjects Chromate detection
Cupric ion detection
Metal-organic frameworks luminescence sensing
TNP detection
title A 2D copper(I) metal-organic framework: Synthesis, structure and luminescence sensing for cupric, ferric, chromate and TNP
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