Starch‐<i>graft</i>‐(synthetic copolymer) latexes initiated with Ce<sup>4+</sup> and stabilized by amylopectin

Bruyn, Hank De; Sprong, Ewan; Gaborieau, Marianne; Roper, John A.; Gilbert, Robert G.

doi:10.1002/pola.22189

Cited by 37 publications

(19 citation statements)

References 26 publications

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“…De Bruyn et al 12 adopted ozonolyzed AP as initiator and stabilizer to initiate the graft copolymerization of St, BA, and vinyl acetate onto starch to obtain starch‐ graft ‐copolymer surfactant‐free latexes. De Bruyn et al 13 used Ce 4+ initiator and AP stabilizer to successfully produce native wx starch grafted poly(styrene‐butyl acrylate‐vinyl acetate) surfactant‐free latexes. Lu et al 14 prepared the cationic starch‐ graft ‐polyacrylamide emulsion by inverse emulsion polymerization and a subsequent Mannich reaction.…”

Section: Introductionmentioning

confidence: 99%

Preparation, characterization, and water resistance of cationic acetylated starch‐g‐poly(styrene‐butyl acrylate) surfactant‐free emulsion

Mou

Wang

et al. 2012

Starch Stärke

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Cationic acetylated starch‐g‐poly(styrene‐butyl acrylate) surfactant‐free emulsion (CAS‐g‐poly(St‐BA)) was synthesized by graft copolymerization of styrene (St) and butyl acrylate (BA) onto CAS using FeSO4–H2O2 redox initiator. The maximum graft of 55.68% was derived when H2O2 concentration, monomer concentration, and St/BA ratio were 9%, 130%, and 1:1, respectively. The results obtained from FTIR, NMR (H1 NMR and C13 NMR), XRD, SEM, and thermogravimetric analysis (TGA‐DTG) confirmed graft copolymerization of St and BA onto CAS. And it was demonstrated that film‐forming properties of starch were greatly improved via grafting St and BA onto starch. It was also found that paper sized with CAS‐g‐poly(St‐BA) exhibited higher ring crush index and bursting strength than paper sized with cationic potato starch (CS) and CAS, as well as much lower water absorption, which is further verified by contact angles results.

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Section: Introductionmentioning

confidence: 99%

Preparation, characterization, and water resistance of cationic acetylated starch‐g‐poly(styrene‐butyl acrylate) surfactant‐free emulsion

Mou

Wang

et al. 2012

Starch Stärke

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“…Polyisoprene cannot be grafted alone on starch and needs the presence of an “initiating comonomer” such as acrylonitrile to obtain copolymers . Copolymers such as poly(styrene‐ co ‐butyl acrylate‐ co ‐vinyl acetate) and poly(acrylamide‐ co ‐2‐acrylamido‐2‐methylpropane sulfonic acid) can be grafted on starch using ceric ammonium nitrate/potassium persulfate and cerium sulfate/ammonium persulfate (GE = 34–90%), respectively. In these reactions, cerium (III) formed from cerium (IV) during the initiation reaction may be oxidized again by persulfate to regenerate cerium (IV).…”

Section: Grafting From Via Radical Polymerizationmentioning

confidence: 99%

Modification of starch by graft copolymerization

et al. 2017

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Research toward bio-based and biodegradable polymers has received a lot of attention these last years, due to environmental concerns and the need to replace fossil resources. Starch is in this frame an interesting starting material due to its abundance and low cost. Native starch displays however, poor mechanical properties and is highly hydrophilic. New starch-based thermoplastic materials can be prepared to overcome these drawbacks by chemical modification, and notably graft copolymerization. A large range of polymers can be grafted on starch by ring-opening and radical polymerizations of various monomers in order to modulate the properties of the final product. Polymers can also be directly grafted onto starch using coupling strategies. This review presents the state of the art in the field.

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“…The OS has been widely used as cobinders to partly replace the conventional synthetic latex for paper coating. However, the mixtures of synthetic latex with OS cause latex migration and nonuniform porosity, resulting in dusting, picking, and print mottles [6,7].…”

Section: Introductionmentioning

confidence: 99%

Preparation and characterization of oxidized starch-graft-poly(styrene-butyl acrylate) latex via emulsion polymerization

Cheng

2014

Journal of Polymer Engineering

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Oxidized starch-graft-poly(styrene-butyl acrylate) [OS-g-P(St-BA)] latex was synthesized by the graft co polymerization of OS with St and n-butyl acrylate (BA) via emulsion polymerization. The graft copolymers were characterized by Fourier transform infrared (FT-IR), transmission electronic microscopy (TEM), dynamic light scattering, thermogravimetry (TG), and differential scanning calorimetry (DSC). The effects of the amount of OS, monomers, and initiator on graft copolymerization were investigated. Under the optimal conditions, the percentage of graft (PG), grafting efficiency (GE), and ζ potential could reach 256.5%, 41.7%, and -30.1 mV, respectively. The results indicated that the OS grafted onto particles greatly enhanced the colloidal stability of latex. The thermal stability properties of OS-g-P(St-BA) were also improved by the addition of OS. The OS-g-P(St-BA) latex may be used to partly replace the conventional synthetic latex for paper coating.

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Starch‐graft‐(synthetic copolymer) latexes initiated with Ce⁴⁺ and stabilized by amylopectin

Cited by 37 publications

References 26 publications

Preparation, characterization, and water resistance of cationic acetylated starch‐g‐poly(styrene‐butyl acrylate) surfactant‐free emulsion

Preparation, characterization, and water resistance of cationic acetylated starch‐g‐poly(styrene‐butyl acrylate) surfactant‐free emulsion

Modification of starch by graft copolymerization

Preparation and characterization of oxidized starch-graft-poly(styrene-butyl acrylate) latex via emulsion polymerization

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Starch‐graft‐(synthetic copolymer) latexes initiated with Ce4+ and stabilized by amylopectin

Cited by 37 publications

References 26 publications

Preparation, characterization, and water resistance of cationic acetylated starch‐g‐poly(styrene‐butyl acrylate) surfactant‐free emulsion

Preparation, characterization, and water resistance of cationic acetylated starch‐g‐poly(styrene‐butyl acrylate) surfactant‐free emulsion

Modification of starch by graft copolymerization

Preparation and characterization of oxidized starch-graft-poly(styrene-butyl acrylate) latex via emulsion polymerization

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Starch‐graft‐(synthetic copolymer) latexes initiated with Ce⁴⁺ and stabilized by amylopectin