2018
DOI: 10.1021/acssuschemeng.7b03345
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Renewable Starch Carriers with Switchable Adsorption Properties

Abstract: This Research Article describes a systematic study on the structure and sorption properties of Carnation-based starch-particles (SPs) by various techniques. Structural characterization of the SPs utilized spectroscopy (1H NMR and FT-IR), scanning electron microscopy (SEM), differential scanning calorimetry (DSC), and thermogravimetric analysis (TGA). The sorption properties of the SPs were characterized by solvent swelling and uptake isotherms with cationic adsorbates at equilibrium and kinetic conditions. The… Show more

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Cited by 22 publications
(36 citation statements)
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“…Scheme 2). A similar effect was reported by Karoyo et al [76] upon doping of starch biopolymers with cationic surfactants, where HLB character and adsorption properties of the biopolymer were dramatically altered for the resulting starch-surfactant complex. An apparent decrease of the HLB of the adsorbent surface had an adverse effect on the adsorption of FL that was more evident in the case of DDAB [77].…”
Section: Equilibrium Adsorption Of Fl Using Surfactant Modified Cs-ac-ansupporting
confidence: 80%
“…Scheme 2). A similar effect was reported by Karoyo et al [76] upon doping of starch biopolymers with cationic surfactants, where HLB character and adsorption properties of the biopolymer were dramatically altered for the resulting starch-surfactant complex. An apparent decrease of the HLB of the adsorbent surface had an adverse effect on the adsorption of FL that was more evident in the case of DDAB [77].…”
Section: Equilibrium Adsorption Of Fl Using Surfactant Modified Cs-ac-ansupporting
confidence: 80%
“…At pH = 7.5, the maximum Methylene Blue dye biosorption capacity of the aerogel was 785 mg/g, obtained by fitting the equilibrium data to the Langmuir isotherm, yielding the highest biosorption capacity for any reported reusable biosorbents prepared from biopolymers. The performance was also comparable to commercial activated carbon (980.3 mg/g) and an asreceived starch microparticle (716.3 mg/g), reported by Karoyo et al (2018). The maximum biosorption is about 86% of the amount calculated from charge stoichiometry, i.e., in reference to the chitosan carboxylated materials.…”
Section: A Recent Review Of the Literature On Dye Removal By Chitosansupporting
confidence: 73%
“…At pH ¼ 7.5, the maximum Methylene Blue dye biosorption capacity of the aerogel was 785 mg/g, obtained by fitting the equilibrium data to the Langmuir isotherm, yielding the highest biosorption capacity for any reported reusable biosorbents prepared from biopolymers. The performance was also comparable to commercial activated carbon (980.3 mg/g) and an as-received starch microparticle (716.3 mg/g), reported by Karoyo et al (2018). The maximum biosorption is about of 86% of the amount calculated from charge stoichiometry, i.e.…”
supporting
confidence: 74%