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Sulfhydryl-Functionalized Amino Group Polymer Microcomposites toward Efficient Adsorption of Aqueous Cr(VI), As(III), Cd(II), and Pb(II). | LitMetric

AI Article Synopsis

  • * A newly designed sulfhydryl-functionalized polymer microcomposite showed effective adsorption capacities for Cr(VI), As(III), Cd(II), and Pb(II), with specific capacities measured in mg per gram for each metal.
  • * The study found that different models (Langmuir and Sips) best described the adsorption behavior for certain metals, and various mechanisms were highlighted, including chemisorption for Cr(VI), precipitation for Cd(II), and chelation/complexation interactions for As(III)

Article Abstract

The development of efficient adsorbents for heavy metal pollution, especially five toxic heavy metals, has attracted great research interest. Polymer-based adsorbents have aroused research value for their abundant functional groups and high porosity to the ability to capture metal ions. We designed a sulfhydryl-functionalized polymer microcomposite to take up Cr(VI), As(III), Cd(II), and Pb(II). The adsorption capacity achieved was 64.2 mg g for Cr(VI), 44.9 mg g for As(III), 35.5 mg g for Cd(II), and 18.2 mg g for Pb(II). Langmuir and Sips isotherm model is dominant for As(III), Cd(II), and Pb(II) adsorption. Pseudo-second-order kinetic models can better describe the adsorption behavior of Cr(VI), implying that chemisorption is accompanied by Cr(VI) adsorption. Cr(VI) simultaneous reduction to Cr(III) through the benzenoid amine oxidate pathway was the dominant mechanism, precipitation for Cd(II) adsorption was convinced, and chelation between As(III)/Pb(II) and─SH group and complexation between Pb(II) and C═O or benzene hydroxyl were a plausible mechanism for As(III) and Pb(II) adsorption.

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Source
http://dx.doi.org/10.1021/acs.langmuir.3c02778DOI Listing

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