Preparation, acidolysis kinetics and scale inhibition performance of low molecular weight poly(maleic anhydride‐<i>alt</i>‐vinyl acetate) based on self‐stabilized precipitation polymerization

Li, Jianfei; Zhao, Hongchi; Yang, Wantai

doi:10.1002/app.54475

J of Applied Polymer Sci

2023

DOI: 10.1002/app.54475

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Preparation, acidolysis kinetics and scale inhibition performance of low molecular weight poly(maleic anhydride‐alt‐vinyl acetate) based on self‐stabilized precipitation polymerization

Jianfei Li

Hongchi Zhao

Wantai Yang

Abstract: Poly(maleic anhydride‐alt‐vinyl acetate) (PMV) is used as a fine chemical in the field of biomedical. However, the techniques of PMV preparation have shortcomings like limited yield (Yp), complex post‐treatment and toxic solvents. Herein self‐stabilized precipitation (2SP) technique which possessed advantages of simple operation and post‐processing, non‐toxic solvent, and surface‐cleaned product is adopted to synthesize low number‐average molecular weight (Mn) PMV by tune‐up of reaction parameters. PMV with Mn… Show more

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2024

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Cited by 3 publications

References 66 publications

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Uniformly sized and self‐assembled maleic anhydride/vinyl acetate/acrylamide terpolymer core–shell nanoparticles fabricated by self‐stabilized precipitation polymerization

Li,

Zhao,

Yang

2024

Journal of Polymer Science

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Copolymer particles containing anhydride and amide groups are widely utilized in oilfields and medication releases because of their high specific surface area, excellent biocompatibility, and water solubility. Here, the self‐stabilized precipitation (2SP) method was used to create maleic anhydride (MAH)/vinyl acetate (VAc)/acrylamide (AM) terpolymer (PMVA) microspheres. Terpolymer composition was highly dependent on monomer feed ratio and microspheres with diameters in the range of about 228–1048 nm could be prepared by altering reaction parameters. Notably, AM was consumed completely within a short period of time owing to high monomer reactivity, MAH and VAc continuing to copolymerize in an alternating manner. Thus self‐assembled core–shell particle with poly(MAH‐co‐VAc‐co‐AM) as core and poly(MAH‐alt‐VAc) as shell (PMVA@PMV) was readily achieved. PMVA particles can be scaled up to application platforms of hydrogel, oil recovery, and scale inhibition. Meanwhile, this contribution broadened the preparation process of core–shell material and can be applied to interface materials by simple modification.

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Uniformly sized and self‐assembled maleic anhydride/vinyl acetate/acrylamide terpolymer core–shell nanoparticles fabricated by self‐stabilized precipitation polymerization

Li,

Zhao,

Yang

2024

Journal of Polymer Science

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Efficient Preparation and Antibacterial Activity of Limonene-Based Terpolymer Particles with Controllable Composition and Size via Self-Stabilized Precipitation Polymerization

Li,

Zhao,

Yang

2024

Ind. Eng. Chem. Res.

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Exploiting bio-based functional polymers to alleviate the scarcity of petroleum resources has garnered a great deal of interest. The ecofriendliness, plentiful supply, and sustainability of limonene (LM) make it an excellent option. Nevertheless, the self-inhibitory effect of exocyclic allyl and steric hindrance pose significant challenges to the effective synthesis of LM-based polymers. Herein, maleic anhydride (MAH)/vinyl acetate (VAc)/LM terpolymer (PMVLM) microsphere with a controllable size (about 0.68–1.83 μm) and composition was effectively generated by manipulating polymerization parameters via self-stabilized precipitation (2SP) technique, wherein the rise of MAH feed percentage was beneficial for endocyclic double bonds of LM participating in copolymerization and the molar percentage of LM in PMVLM was controlled from 1 to 26%. Besides, PMVLM exhibited excellent killing efficiency against E. coli and the inhibition percentage of the copolymer with 2 mg/mL to 70%. Combined with the merits of VAc, LM, and MAH, PMVLM may also be employed as biomedical materials, biodegradable plastics, eco-friendly coatings, and packaging materials.

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Preparation of poly(acrylonitrile-co-styrene) microspheres by reflux precipitation polymerization

Xu,

Zhao,

et al. 2024

Journal of Macromolecular Science, Part A

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Preparation, acidolysis kinetics and scale inhibition performance of low molecular weight poly(maleic anhydride‐alt‐vinyl acetate) based on self‐stabilized precipitation polymerization

Cited by 3 publications

References 66 publications

Uniformly sized and self‐assembled maleic anhydride/vinyl acetate/acrylamide terpolymer core–shell nanoparticles fabricated by self‐stabilized precipitation polymerization

Uniformly sized and self‐assembled maleic anhydride/vinyl acetate/acrylamide terpolymer core–shell nanoparticles fabricated by self‐stabilized precipitation polymerization

Efficient Preparation and Antibacterial Activity of Limonene-Based Terpolymer Particles with Controllable Composition and Size via Self-Stabilized Precipitation Polymerization

Preparation of poly(acrylonitrile-co-styrene) microspheres by reflux precipitation polymerization

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