Why Natural or Electron Irradiated Sheep Wool Show Anomalous Sorption of Higher Concentrations of Copper(II).
TLDR
It was concluded that there was formation of Cu(II)-complexes of carboxylic and cysteic acids with ligands coming from various keratin macromolecules, giving rise to the sorption extremes.Abstract:
Sorption of higher concentrations of Cu(II) solution onto natural sheep wool or wool irradiated by an electron beam was studied. Sorption isotherms were of unexpected character, showing extremes. The samples with lower absorbed doses adsorbed less than non-irradiated wool, while higher doses led to increased sorption varying with both concentration and dose. FTIR spectra taken from the fibre surface and bulk were different. It was concluded that there was formation of Cu(II)-complexes of carboxylic and cysteic acids with ligands coming from various keratin macromolecules. Clusters of chains crosslinked through the ligands on the surface limit diffusion of Cu(II) into the bulk of fibre, thus decreasing the sorption. After exhausting the available ligands on the surface the remaining Cu(II) cations diffuse into the keratin bulk. Here, depending on accessibility of suitable ligands, Cu(II) creates simple or complex salts giving rise to the sorption extremes. Suggestion of a mechanism for this phenomenon is presented.read more
Citations
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Effective adsorption of Au(III) and Cu(II) by chemically treated sheep wool and the binding mechanism
TL;DR: In this paper, the Na2S treated sheep wool was analyzed by Fourier transform infrared spectroscopy (FTIR) and X-ray photoelectron spectrography (XPS) to reveal that the binding of copper ion to the sheep wool is attributed through the oxygen of carboxyl groups.
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Some Properties of Electron Beam-Irradiated Sheep Wool Linked to Cr(III) Sorption.
TL;DR: The characteristics of an electron beam irradiated wool with an absorbed dose of (21–410) kGy in comparison with natural wool with respect to the determination of the isoelectric point (IEP), zero charge point (ZCP), mechanism of Cr(III) sorption from higher concentrated solutions, and the modelling of the wool-Cr( III) interaction are examined.
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Testing of electron beam irradiated sheep wool for adsorption of Cr(III) and Co(II) of higher concentrations
TL;DR: In this paper, the chromic cation showed adherence to Freundlich, Temkin, Halsey, Harkins-Jura and Jovanovic models for all or almost all dosed samples.
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Role of Post-Exposure Time in Co(II) Sorption of Higher Concentrations on Electron Irradiated Sheep Wool
TL;DR: P pH variations of aqueous extracts from the wool samples depending on absorbed dose and post-exposure time indicate complexity of the structural transformation being specific for each dose applied.
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Radiation-modified wool for adsorption of redox metals and potentially for nanoparticles
TL;DR: In this article, the conditions for the adsorption of anti-microbial nanoparticles in addition to the redox-active metals on radiation-modified wool are investigated taking into account that the diffusion of nanoparticles into the modified wool is governed by electrostatic interactions.
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Shuowei Cai,Bal Ram Singh +1 more
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Biosorption of Ni(II) from aqueous solutions by Litchi chinensis seeds.
Jonathan Gonzalo Flores-Garnica,Liliana Morales-Barrera,Gabriela Pineda-Camacho,Eliseo Cristiani-Urbina +3 more
TL;DR: Results indicate that LCS can be used as an effective and environmentally friendly biosorbent to detoxify Ni(II)-polluted wastewaters.