2010
DOI: 10.1002/chem.201000506
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Redox Sorption and Recovery of Silver Ions as Silver Nanocrystals on Poly(aniline‐co‐5‐sulfo‐2‐anisidine) Nanosorbents

Abstract: Poly[aniline(AN)-co-5-sulfo-2-anisidine(SA)] nanograins with rough and porous structure demonstrate ultrastrong adsorption and highly efficient recovery of silver ions. The effects of five key factors-AN/SA ratio, Ag(I) concentration, sorption time, ultrasonic treatment, and coexisting ions-on Ag(I) adsorbability were optimized, and AN/SA (50/50) copolymer nanograins were found to exhibit much stronger Ag(I) adsorption than polyaniline and all other reported sorbents. The maximal Ag(I) sorption capacity of up … Show more

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Cited by 93 publications
(81 citation statements)
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“…2. The absorption spectra of EB PANI shows two distinct absorption bands located at λ max = 330 and 633 nm, which are due to the π-π* transition of the benzoid ring and exciton absorption from benzoid ring to quinoid rings respectively [30][31][32][33]. In case of 22, 19, and 14% doped PANI the peak at 330 nm is shifted to 345, 343, and 336 nm respectively.…”
Section: Resultsmentioning
confidence: 99%
“…2. The absorption spectra of EB PANI shows two distinct absorption bands located at λ max = 330 and 633 nm, which are due to the π-π* transition of the benzoid ring and exciton absorption from benzoid ring to quinoid rings respectively [30][31][32][33]. In case of 22, 19, and 14% doped PANI the peak at 330 nm is shifted to 345, 343, and 336 nm respectively.…”
Section: Resultsmentioning
confidence: 99%
“…It is known that the main adsorption sites for heavy metal ions are the nitrogen atoms in the macromolecular chains because the nitrogen atom has a lone pair of electrons which can bind a metal ion through sharing an electrons pair to form a metal complex [39,40]. A possible interaction mechanism between the three heavy metal ions and nitrogen atoms in the polymer PEI chains has been proposed as shown in Fig.…”
Section: Adsorption Mechanism Of Heavy Metal Ions Onto Pva Doped Pei mentioning
confidence: 99%
“…Replacing poly(An) on polypyrrole decreases the stability of nanocomposites, which leads to a high degree of SN aggregation [131,132]. The enhanced adsorption capacity relative to Ag + ions (up to 1.85·10 -2 mol/g with adsorption efficiency >99.98%) and reducing activity of the copolymer of An and 5-sulfo-2-anisidine may be used for the preparation of conducting composites and adsorbents for the concentration and separation of silver from waste water [133]. The formation of a layer of SN on the surface of fibers of the interpolymer complex poly(o-methoxyaniline)(PoMA)/ribonucleic acid (RNA) imparts semiconductor properties to the composites, which is attributed to features of the charge transfer between the matrix and SN [134].…”
Section: Hybrid Systems With An Organic Polymer Matrixmentioning
confidence: 99%