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Literature DB >> 27561514

Synthesis and characterization of amylose grafted poly(acrylic acid) and its application in ammonia adsorption.

Qing Chen¹, Haojie Yu², Li Wang³, Zain-Ul Abdin¹, Xinpeng Yang¹, Junhua Wang¹, Weidong Zhou¹, Hongtao Zhang⁴, Xiao Chen⁴.

Abstract

Amylose grafted poly(acrylic acid) (Am-g-PAA) was synthesized by graft copolymerization of amylose with acrylic acid. The structure of Am-g-PAA was confirmed by (1)H NMR and FT-IR spectra. The morphology, crystallinity and thermal properties of amylose and Am-g-PAA were investigated by SEM, XRD and TGA, respectively. The highest degree of substitution (DS) of carboxyl group was 1.96 which was obtained after reacted for 1h at 60°C. Acrylic acid to anhydroglucose mole ratio for DS was 19.81. It was found that a large number of carboxyl groups were grafted on the backbone of amylose. It was also found that ammonia adsorption capacity of amylose increased by grafting poly(acrylic acid) on the backbone of amylose.

Entities: Chemical Gene

Keywords: Ammonia adsorption; Amylose; Cigarette smoke; Graft copolymer

Mesh：

Substances：

Year: 2016 PMID： 27561514 DOI： 10.1016/j.carbpol.2016.07.120

Source DB: PubMed Journal: Carbohydr Polym ISSN： 0144-8617 Impact factor: 9.381

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Cited

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3 in total

Synthesis and characterization of amylose grafted poly(acrylic acid) and its application in ammonia adsorption.

1. Oncogenic MSH6-CXCR4-TGFB1 Feedback Loop: A Novel Therapeutic Target of Photothermal Therapy in Glioblastoma Multiforme.

2. Nanoporous Sodium Carboxymethyl Cellulose-g-poly (Sodium Acrylate)/FeCl3 Hydrogel Beads: Synthesis and Characterization.

3. Controllable Fabrication of Molecularly Imprinted Microspheres with Nanoporous and Multilayered Structure for Dialysate Regeneration.

2. Nanoporous Sodium Carboxymethyl Cellulose-g-poly (Sodium Acrylate)/FeCl₃ Hydrogel Beads: Synthesis and Characterization.