A water-stable europium-MOF as a multifunctional luminescent sensor for some inorganic ions and dichloromethane molecule

Zhengde Li; Zhiying Zhan; Yuejiao Jia; Zhang Li; Ming Hu

Journal of Industrial and Engineering Chemistry, Vol.97, 180-187, May, 2021

DOI10.1016/j.jiec.2020.12.036 Export Citation

A water-stable europium-MOF as a multifunctional luminescent sensor for some inorganic ions and dichloromethane molecule

Zhengde Li, Zhiying Zhan, Yuejiao Jia, Zhang Li, and Ming Hu^†

Inner Mongolia Key Laboratory of Chemistry and Physics of Rare Earth Materials, School of Chemistry and Chemical Engineering, Inner Mongolia University, Hohhot 010021, China

E-mail:

Based on the ligand 2,2'-bipyridine-5,5'-dicarboxylic acid (H2bpdc), a luminescent Eu-MOF was successfully synthesized under solvothermal conditions, namely, [Eu(bpdc)1.5(H2O)2]n (1). The experimental explorations showed that compound 1 could not only detect Fe3+ and Cu2+ ions with high selectivity and recyclability, but also serve as an excellent selective sensing material for PO4 3- ion among some anions. Surprisingly, as an outstanding example of Ln-MOFs with fluorescence response to dichloromethane in aqueous solution, compound 1 could also behave as a functional probe with high sensitivity, selectivity, and recyclability. Meanwhile, the possible distinguishing mechanisms of compound 1 for above ions and CH2Cl2 molecule were further speculated.

Keywords:Luminescence sensor;Coordination polymer;Fe3+;Cu2+;PO4;3-;Dichloromethane

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[2] Lustig WP, Mukherjee S, Rudd ND, Desai AV, Li J, Ghosh SK, Chem. Soc. Rev., 46, 3242 (2017)

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[5] Espallargas GM, Coronado E, Chem. Soc. Rev., 47, 533 (2018)

[6] Zhu L, Liu XQ, Jiang HL, Sun LB, Chem. Rev., 117(12), 8129 (2017)

[7] Huang YB, Liang J, Wang XS, Cao R, Chem Soc. Rev., 46, 126 (2017)

[8] Yi FY, Chen D, Wu MK, Han L, Jiang HL, ChemPlusChem, 81, 675 (2016)

[9] Jaros SW, Sokolnicki J, Wołoszyn A, Haukka M, Kirillov AM, Smolenski P, J. Mater. Chem. C, 6, 1670 (2018)

[10] Gu J, Liang X, Cui Y, Wu J, Shia Z, Kirillov AM, CrystEngComm, 19, 2570 (2017)

[11] He J, Xu J, Yin J, Li N, Bu XH, Sci. China Mater., 62, 1655 (2019)

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[13] Cui Y, Chen B, Qian G, Coord. Chem. Rev., 273-274, 76 (2014)

[14] Zeng G, Xing SH, Wang XR, Yang YL, Ma DX, Liang HW, Gao L, Hua J, Li GH, Shi Z, Feng SH, Inorg. Chem., 55(3), 1089 (2016)

[15] Han ML, Xu GW, Li DS, Azofra LM, Zhao J, Chen B, Sun C, ChemistrySelect, 1, 3555 (2016)

[16] Yang LZ, Wang J, Kirillov AM, Dou W, Xu C, Fang R, Xua CL, Liu WS, CrystEngComm, 18, 6425 (2016)

[17] Wen GX, Wu YP, Dong WW, Zhao J, Li DS, Zhang J, Inorg. Chem., 55(20), 10114 (2016)

[18] Xu H, Fang M, Cao CS, Qiao WZ, Zhao B, Inorg. Chem., 55, 47900 (2016)

[19] Wu S, Min H, ShinW, Cheng P, Adv. Mater., 32, 180587 (2019)

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[23] Yan Z, Hu L, You J, Anal. Methods, 8, 5738 (2016)

[24] Yang D, Lu L, Feng S, Zhu M, Dalton. Trans., 49, 7514 (2020)

[25] Zheng M, Tan H, Xie Z, Zhang L, Jing X, Sun Z, ACS Appl. Mater. Inter, 5, 1078 (2013)

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[34] Xia Y, Cao KL, Han MM, Feng YL, Inorg. Chem. Comm., 56, 76 (2015)

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[46] Li B, Zhou J, Bai F, Xing Y, Dyes Pigment., 172, 107862 (2020)

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[49] Yu HH, Fan MY, Liu Q, Su ZM, Li X, Pan QQ, Hu XL, Inorg. Chem., 59(3), 2005 (2020)

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[52] Rao PC, Mandal S, Inorg. Chem., 57(19), 11855 (2018)

[53] Du Y, Yang H, Liu R, Shao C, Yang L, Dalton Trans., 49, 13003 (2020)

[54] Zeng YN, Zheng HQ, He XH, Ca GJ, Wang B, Wu K, Lin ZJ, Dalton Trans., 49, 9680 (2020)

[55] Zhan Z, Jia Y, Li D, Zhang X, Hu M, Dalton Trans., 48, 15255 (2019)

[56] Zhang XJ, Su FZ, Chen DM, Peng Y, Guo WY, Liu CS, Du M, Dalton Trans., 48, 1843 (2019)

[57] Shi Y, Ye J, Qi Y, Akram MA, Rauf A, Ning G, Dalton Trans., 47, 17479 (2018)