Adsorção de arsênio(V) pela quitosana ferro - III reticulada

Abstract: Recebido em 21/3/07; aceito em 17/12/07; publicado na web em 31/7/08 ADSORPTION OF ARSENIC(V) BY CROSSLINKED IRON-III-CHITOSAN. The removal of As(V) by a crosslinked iron(III)-chitosan adsorbent was evaluated under various conditions. The adsorption capacity of CH-FeCL was around 54 mg/g of As(V). The kinetics of adsorption obeys a pseudo-first-order model with rate constants equal to 0.022, 0.028, and 0.033 min -1 at 15, 25 and 35 o C respectively. Adsorption data were well described by the Langmuir model, al… Show more

“…An alternative to the use of iron salts could be the adsorption to organic compounds as proposed by Fagundes et al (2008), who used a complex of iron-chitosan (III) for the removal of arsenate from surface waters, besides many other low-cost adsorbents as dry plants, red mud, fl y ash and zeolites (Chiban et al 2012). Furthermore considering the chitin constitution of cladocerans carapace, the toxicity of arsenic may be enhanced by adsorption of this ametal to exoskeleton of test organisms, and iron could increase this adsorption, although some authors associate the metal adsorption to limestone from carapace (Tsui and Wang 2007).…”

Arsenic toxicity to cladocerans isolated and associated with iron: implications for aquatic environments

“…An alternative to the use of iron salts could be the adsorption to organic compounds as proposed by Fagundes et al (2008), who used a complex of iron-chitosan (III) for the removal of arsenate from surface waters, besides many other low-cost adsorbents as dry plants, red mud, fl y ash and zeolites (Chiban et al 2012). Furthermore considering the chitin constitution of cladocerans carapace, the toxicity of arsenic may be enhanced by adsorption of this ametal to exoskeleton of test organisms, and iron could increase this adsorption, although some authors associate the metal adsorption to limestone from carapace (Tsui and Wang 2007).…”

Arsenic toxicity to cladocerans isolated and associated with iron: implications for aquatic environments

“…Various reports have already been published involving Fecrosslinked chitosan complex (Ch-Fe) as adsorbent of oxianions, such as phosphate [22], arsenate [23] and chromium (VI) [24] and the results have demonstrate that Ch-Fe could be a stronger adsorbent of oxianions.…”

Adsorption of Cr(VI) using Fe-crosslinked chitosan complex (Ch-Fe)

“…Others combine iron with chitosan in all kinds of forms, and the sorption is close to the pH under the certain condition (Fagundes et al 2008;Vu et al 2013;Gupta et al 2013;Cho et al 2012;Hanh et al 2015;Wang et al 2014a, b). For As(V), the best sorption is between 2 and 5, and the sorption will decrease due to the positive or negative charging on the surface of adsorbent and adsorbate at high pH.…”

Removal of As(III) and As(V) from water by chitosan and chitosan derivatives: a review