Potential Heavy Metal Water Remediation Using 5-Formylfuran-2-Sulfonic Acid Thiosemicarbazone Chelating Resins

Strong anion exchange resins were separately loaded with three new 5-formylfuran-2-sulfonic acid thiosemicarbazone ligands and tested to determine if they could be utilized for heavy-metal water remediation. The ligands were tested for microbial activity using MIC tests, and were found to be inactiv...

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Published in:Separation science and technology 2015-12, Vol.50 (18), p.2907-2913
Main Authors: Werlein, Amanda L., Crook, Amanda J., Hoy, Erik P., Koch, Amanda L., Ensor, Dale D., Lisic, Edward C.
Format: Article
Language:English
Subjects:
Beads
Cadmium
chelating resins
Exchange
Ligands
metal remediation
Nickel
Polymers
Remediation
Resins
semicarbazone
thiosemicarbazone
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container_issue 18
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container_title Separation science and technology
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creator Werlein, Amanda L.
Crook, Amanda J.
Hoy, Erik P.
Koch, Amanda L.
Ensor, Dale D.
Lisic, Edward C.
description Strong anion exchange resins were separately loaded with three new 5-formylfuran-2-sulfonic acid thiosemicarbazone ligands and tested to determine if they could be utilized for heavy-metal water remediation. The ligands were tested for microbial activity using MIC tests, and were found to be inactive even at high concentrations. Resins used in the study were loaded with one percent by weight of each ligand, and then were exposed to Co-57, Ni-63, or Cd-109, using batch techniques at various environmental pH levels at different time intervals. The adsorption values of the metals to the resin beads were calculated as dry-weight distribution (Dw) values.
doi_str_mv 10.1080/01496395.2015.1085418
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source Taylor and Francis Science and Technology Collection
subjects Beads
Cadmium
chelating resins
Exchange
Ligands
metal remediation
Nickel
Polymers
Remediation
Resins
semicarbazone
thiosemicarbazone
title Potential Heavy Metal Water Remediation Using 5-Formylfuran-2-Sulfonic Acid Thiosemicarbazone Chelating Resins
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