• Title/Summary/Keyword: radiation-induced grafted polymerization

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Radiation-Induced Grafting of Acrylic Acid onto Cellulose : I. Graft Polymerization of Acrylic Acid onto Radiation-Peroxidized Cellulose (셀롤로오스에 아크릴산의 방사선 그라프트 반응: I. 과산화물에 의한 그라프트반응)

  • Kwon, Oh Hyun;Nho, Young Chang;Yang, Hyun Soo
    • Applied Chemistry for Engineering
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    • v.8 no.6
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    • pp.934-938
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    • 1997
  • Acrylic acid was grafted onto the peroxidized cellulose which was stored at room temperature for 20 days after ${\gamma}$-ray irradiation in air. The effect of acids and metallic salts on the grafting yields was determined. The addition of both the acid and metallic salt was found to accelerate the grafting yield much more than the only metallic salt, and the addition of $FeSO_4{\cdot}7H_2O$ led to much higher grafting yield than that of $CuSO_4{\cdot}5H_2O$. The effect of acid on the grafting yield increased by the order $H_2>SO_4>HCl>HNO_3>CH_3COOH$. With the addition of $H_2SO_4$, the grafting yield rapidly increased up to $7{\times}10^{-2}$M, and then levelled off.

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Preparation of Acrylic Acid Grafted Polypropylene by Electron Beam Irradiation and Heavy Metal Ion Adsorption Property (전자선 조사를 이용한 아크릴산이 그라프트된 폴리프로필렌의 제조 및 중금속 이온 흡착 특성)

  • Cheon, Ja young;Jeun, Joon-pyo
    • Composites Research
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    • v.32 no.6
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    • pp.335-341
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    • 2019
  • In this study, an acrylic acid (AAc) was grafted on a polypropylene (PP) nonwoven fabric using electron beam irradiation. Electron beam grafting was carried out under various conditions to produce AAc grafted PP (PP-g-AAc) nonwoven fabric having a grafting yield of about 50% at radiation dose of 100 kGy and a monomer concentration of 60%. The physical and chemical properties of PP-g-AAc nonwoven fabric were evaluated by SEM, ATR-FTIR, thermal analysis and tensile strength. The morphology of PP and PP-g-AAc nonwoven fabric confirmed by SEM showed no significant change, and it was judged that AAc was introduced into PP nonwoven fabric from ATR-FTIR. PP-g-AAc nonwoven fabric showed an increase in tensile strength and a decrease in tensile strain compared to PP nonwoven fabric. However, since change of value is not significant, it is considered that there is no significant influence on the physical characterization. Adsorption experiments of PP-g-AAc nonwoven fabric on various ions showed selective adsorption behavior for lead ion. In conclusion, the electron beam radiation-induced PP-g-AAc nonwoven fabric is expected to be applied as an effective adsorbent for the adsorption of lead ions.

Enzyme Activity of Lipase Immobilized Non-Woven Fabric for Biodiesel Production (바이오디젤 생산을 위한 리파아제 고정 부직포의 효소활성화)

  • Kim, Ye Jin;Lee, Sung Hae;Hong, Sung Kyu;Kim, Min;Park, Sang Jin
    • Korean Chemical Engineering Research
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    • v.48 no.1
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    • pp.121-127
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    • 2010
  • This study is to optimize the enzyme(lipase) activity for biodiesel production. The ion-exchanged non-woven fabrics(EtA, DEA-EtA non-woven fabric) containing ethanolamine, diethylamine groups are used by radiation induced grafted polymerization onto a non-woven fabric for more effective immobilization of lipase. Since the porous hollow fiber membranes are showed the low throughputibehe non-woven fabric membranes are used for biodiesel production. The physical charateristics of enzyme immobilized and the enzyme activity to EtA and DEA-EtA non-woven fabrics are studied. The EtA non-woven fabrics are quite similar to DEA-EtA non-woven fabric for the amount of enzyme immobilized(EtA non-woven fabric:15.69 mg/g, DEA-EtA non-woven fabric:14.45 mg/g) but DEA-EtA non-woven fabrics have shown the lower permeabiliquite the organic solvent than the EtA non-woven fabrics(EtA non-woven fabric:$3.50mol/h{\cdot}kg$, DEA-EtA non-woven fabric:$0.38mol/h{\cdot}kg$). Optimum characteristics of ehe non-woven fabric membranes and the limilaractivity are also investigated for the effective biodiesel production.