Metathesis in metal – organic gels (MOGs) : a facile strategy to construct robust fluorescent Ln‐MOG sensors for antibiotics and explosives

Metathesis in metal – organic gels (MOGs) : a facile strategy to construct robust fluorescent Ln‐MOG sensors for antibiotics and explosives

It is essential to develop new effective sensor materials for the detection of antibiotics and organic explosives, due to their negative impacts on ecosystems and human health. In this work, guided by an in situ metal‐node metathesis approach, a fluorescent metal–organic gel [MOG(Eu) gel] has been s...

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Main Authors: Qin, Zheng-Sheng, Dong, Wen-Wen, Zhao, Jun, Wu, Ya-Pan, Tian, Zheng-Fang, Zhang, Qichun, Li, Dong-Sheng
Other Authors: School of Materials Science & Engineering
Format: Article
Language:English
Published: 2020
Subjects:
Engineering::Materials
Metal–organic Gels
Metathesis
Online Access:https://hdl.handle.net/10356/137757
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1377572020-06-01T10:13:56Z Metathesis in metal – organic gels (MOGs) : a facile strategy to construct robust fluorescent Ln‐MOG sensors for antibiotics and explosives Qin, Zheng-Sheng Dong, Wen-Wen Zhao, Jun Wu, Ya-Pan Tian, Zheng-Fang Zhang, Qichun Li, Dong-Sheng School of Materials Science & Engineering Engineering::Materials Metal–organic Gels Metathesis It is essential to develop new effective sensor materials for the detection of antibiotics and organic explosives, due to their negative impacts on ecosystems and human health. In this work, guided by an in situ metal‐node metathesis approach, a fluorescent metal–organic gel [MOG(Eu) gel] has been synthesized for the first time by metal‐ion exchange between Eu3+ and Al3+ in the nonfluorescent MOG(Al) gel. More importantly, the postsynthetic MOG(Eu) xerogel shows remarkable selective detection ability towards ronidazole (RDZ), ornidazole (ODZ), metronidazole (MDZ), and dimetridazole (DTZ) antibiotics, as well as 4‐nitrophenol (4‐NP), with low detection limits of 1.205, 0.542, 0.999, 0.377, and 1.582 ppm, respectively. The high quenching efficiencies can be attributed to the decrease of effective energy transfer in the host–guest systems. The strategy of metathesis opens up new opportunities for synthetic methods and functional applications in MOGs materials. MOE (Min. of Education, S’pore) 2020-04-14T00:56:39Z 2020-04-14T00:56:39Z 2017 Journal Article Qin, Z.-S., Dong, W.-W., Zhao, J., Wu, Y.-P., Tian, Z.-F., Zhang, Q., & Li, D.-S. (2018). Metathesis in metal – organic gels (MOGs) : a facile strategy to construct robust fluorescent Ln‐MOG sensors for antibiotics and explosives. European Journal of Inorganic Chemistry, 2018(2), 186-193. doi:10.1002/ejic.201701339 1434-1948 https://hdl.handle.net/10356/137757 10.1002/ejic.201701339 2-s2.0-85040836364 2 2018 186 193 en European Journal of Inorganic Chemistry © 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim. All rights reserved.
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
topic Engineering::Materials
Metal–organic Gels
Metathesis
spellingShingle Engineering::Materials
Metal–organic Gels
Metathesis
Qin, Zheng-Sheng
Dong, Wen-Wen
Zhao, Jun
Wu, Ya-Pan
Tian, Zheng-Fang
Zhang, Qichun
Li, Dong-Sheng
Metathesis in metal – organic gels (MOGs) : a facile strategy to construct robust fluorescent Ln‐MOG sensors for antibiotics and explosives
description It is essential to develop new effective sensor materials for the detection of antibiotics and organic explosives, due to their negative impacts on ecosystems and human health. In this work, guided by an in situ metal‐node metathesis approach, a fluorescent metal–organic gel [MOG(Eu) gel] has been synthesized for the first time by metal‐ion exchange between Eu3+ and Al3+ in the nonfluorescent MOG(Al) gel. More importantly, the postsynthetic MOG(Eu) xerogel shows remarkable selective detection ability towards ronidazole (RDZ), ornidazole (ODZ), metronidazole (MDZ), and dimetridazole (DTZ) antibiotics, as well as 4‐nitrophenol (4‐NP), with low detection limits of 1.205, 0.542, 0.999, 0.377, and 1.582 ppm, respectively. The high quenching efficiencies can be attributed to the decrease of effective energy transfer in the host–guest systems. The strategy of metathesis opens up new opportunities for synthetic methods and functional applications in MOGs materials.
author2 School of Materials Science & Engineering
author_facet School of Materials Science & Engineering
Qin, Zheng-Sheng
Dong, Wen-Wen
Zhao, Jun
Wu, Ya-Pan
Tian, Zheng-Fang
Zhang, Qichun
Li, Dong-Sheng
format Article
author Qin, Zheng-Sheng
Dong, Wen-Wen
Zhao, Jun
Wu, Ya-Pan
Tian, Zheng-Fang
Zhang, Qichun
Li, Dong-Sheng
author_sort Qin, Zheng-Sheng
title Metathesis in metal – organic gels (MOGs) : a facile strategy to construct robust fluorescent Ln‐MOG sensors for antibiotics and explosives
title_short Metathesis in metal – organic gels (MOGs) : a facile strategy to construct robust fluorescent Ln‐MOG sensors for antibiotics and explosives
title_full Metathesis in metal – organic gels (MOGs) : a facile strategy to construct robust fluorescent Ln‐MOG sensors for antibiotics and explosives
title_fullStr Metathesis in metal – organic gels (MOGs) : a facile strategy to construct robust fluorescent Ln‐MOG sensors for antibiotics and explosives
title_full_unstemmed Metathesis in metal – organic gels (MOGs) : a facile strategy to construct robust fluorescent Ln‐MOG sensors for antibiotics and explosives
title_sort metathesis in metal – organic gels (mogs) : a facile strategy to construct robust fluorescent ln‐mog sensors for antibiotics and explosives
publishDate 2020
url https://hdl.handle.net/10356/137757
_version_ 1681058065246322688

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