Shih-Chang Hsu scite author profile

Emulsion polymerization of methyl methacrylate (MMA) in the presence of chitosan was studied and a reaction mechanism was proposed. It was proved in the companion article that potassium persulfate (KPS) free radicals can degrade chitosan chains into chain free radicals. Therefore, it is possible to produce a chitosan copolymer when the monomer and the KPS initiator are added into the chitosan solution. According to the proposed mechanism, concentrations of different species such as the initiator, total free radicals, and degraded chitosan chain were calculated with the reaction time. All the results agreed with the experimental observation. The results showed that the polymerization rate varied with 0.83-and 0.82-order of the total free-radical concentration and chitosan repeating unit concentration, respectively. It was also verified that chitosan played multiple roles in the reaction system. If the monomer was added into the chitosan solution before the addition of KPS, chitosan served mainly as a surfactant. Consequently, the polymer particle number was increased with the chitosan addition and so was the polymerization rate. However, if the monomer was added into the solution where the chitosan was already degraded by KPS, the polymerization rate was decreased with the predegradation time of chitosan. In both cases, the final polymer particles consisted of the poly(methyl methacrylate) (PMMA) homopolymer and the chitosan-PMMA copolymer.

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Structures and thermal properties of chitosan‐modified poly(methyl methacrylate)

Don

Hsu

Chiu

2001

J. Polym. Sci. A Polym. Chem.

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The emulsion polymerization of methyl methacrylate in the presence of chitosan with potassium persulfate (KPS) as an initiator was examined in a previous article. The free radicals that dissociated from KPS not only initiated the polymerization but also degraded the chitosan molecules. Therefore, in addition to its role as a cationic surfactant, chitosan also participated in the polymerization reaction. When the polymerization was complete, the latex polymer consisted of poly(methyl methacrylate) (PMMA) homopolymer and chitosan-PMMA copolymer. In this article, the structures and thermal properties of latex polymers are examined. Gel permeation chromatography was used to measure the molecular weight of the PMMA homopolymer, with the copolymer composition determined by an elemental analyzer. Scanning and transmission electronic microscopes were used to measure the size of latex particles from different reaction systems. The surface charges of latex particles at several different pH values were determined by the measurement of the potential. All results agreed with the reaction mechanism proposed in the previous article. Finally, the presence of rigid chitosan increased the glass-transition temperature of the final latex polymers. Thermogravimetric analysis showed that the degradation behavior of latex polymers was similar to the unzipping mechanism of PMMA, yet the presence of chitosan units hindered the unzipping of the main chains in chitosan-PMMA copolymers.

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Study on the synthesis of poly(methyl methacrylate)-poly(methacrylic acid) composite latex and their humidity sensitive properties

Hsu

Lee

Chiu

1999

J. Appl. Polym. Sci.

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The composite latex particles of poly(methyl methacrylate)-poly-(methacrylic acid) [poly(MMA-MAA)] were synthesized through either soapless seeded emulsion polymerization or a soapless emulsion copolymerization technique. The reaction kinetics, morphology, and size of latex particles, composition, glass transition temperature (T g ), and molecular weight of polymer products were studied under different experimental conditions. Moreover, this work also focused on the humiditysensitive properties of the polymer films fabricated by melting under the temperature of 200°C and followed by chemical modification with aqueous solution of NaOH. It is confirmed that there exists both an optimum ratio of hydrophilic to hydrophobic monomers and the initial structure of the latex particle to provide the humiditysensitive polyelectrolyte film with excellent water resistivity and good sensitivity to humidity. Besides, little hysteresis and quick response were observed.

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Polymer latex containing carboxylic acid functional groups. II. Humidity‐sensitive properties of rigid films made from MMA and AA

Hsu

Liao

Chiu

1999

J. Appl. Polym. Sci.

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ABSTRACT:The polymer latexes of poly(MMA-AA) were synthesized using two techniques: soapless seeded emulsion polymerization, and soapless emulsion copolymerization. Then a series of rigid polymer films containing a COOH group were prepared from the synthesized latex. The humidity-sensitive properties of the polymer films were investigated. Our studies confirmed that there exists both an optimum ratio of hydrophilic to hydrophobic monomers and initial structure of the latex particle that provides the humidity-sensitive polymer film with excellent water resistivity and sensitivity to humidity. In addition, little hysteresis and quick response were observed.

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Shih-Chang Hsu

Free radical degradation of chitosan with potassium persulfate

Synthesis of chitosan‐modified poly(methyl methacrylate) by emulsion polymerization

Structures and thermal properties of chitosan‐modified poly(methyl methacrylate)

Study on the synthesis of poly(methyl methacrylate)-poly(methacrylic acid) composite latex and their humidity sensitive properties

Polymer latex containing carboxylic acid functional groups. II. Humidity‐sensitive properties of rigid films made from MMA and AA

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