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활성탄을 함유한 메틸실리카 마이크로캡슐의 제조 및 응용
안복엽(Ahn Bok Yeop),이유미(Lee Yu Mi),함명경(Ham Myung Kyung),이동석(Rhee Dong Seok) 강원대학교 산업기술연구소 2003 産業技術硏究 Vol.23 No.1
The charcoal-encapsulated methyl silica microcapsules were prepared by a O/W microemulsion sol-gel method, and the adsorption properties on aquatic humic acid were investigated. The capsules prepared were spherical, 100 ~ 1000 ㎛ in size. The size distribution was controllable by adjusting the size of charcoal powder, charcoal/methyl silica ratio, and agitating speed in O/W sol-gel process. Adsorption efficiency of charcoal for aquatic humic acid was decreased after encapsulation by methyl silica shell. The decreased adsorption efficiency can be dependent on the decrease of the BET surface area and pore volume after encapsulation. Diffusion properties of humic acid through the capsule shell also played an important role on adsorption efficiency. Therefore, the reasonable target pollutants for the capsules can be VOC or odor molecules which can overcome diffusion barrier through shell of capsules in air condition. Functionalization methods for the charcoal-encapsulated CH₃(SiO)n microcapsules by incorporation of TiO₂ as a phtocatalytic function and by incorporation of inorganic pigment as a color function were also investigated. TiO₂ coating properties were controllable by adjusting pH, temperature, and the concentration of TiOSO₄. In XRD measurement, the crystal form of the coated TiO₂was anatase. For the colorization of the capsules, inorganic pigments were more efficient than organic dyes, and various color was introduced to the capsules using inorganic pigments.
활성탄을 함유한 메틸실리카 마이크로캡슐의 제조 및 응용
안복엽,이유미,함명경,이동석 강원대학교 산업기술연구소 2003 産業技術硏究 Vol.23 No.A
The charcoal-encapsulated methyl silica microcapsules were prepared by a O/W microemulsion sol-gel method. and the adsorption properties on aquatic humic acid were investigated. The capsules prepared were spherical. 100 ∼1000 ㎛ in size. The size distribution w-as controllable by adjusting the size of charcoal powder, charcoal/methyl silica ratio, and agitating speed in O/W sol-gel process Adsorption efficiency of charcoal for aquatic humic acid was decreased after encapsulation by methyl silica shell The decreased adsorption efficiency can be dependent on the decrease of the BET surface area and pore volume after encapsulation Diffusion properties of humic acid through the capsule shell also played an important role on adsorption efficiency. Therefore. the reasonable target pollutants for the capsules can he VOC or odor molecules which can overcome diffusion harrier through shell of capsules in air condition Functionalization methods for the charcoal-encapsulated CH₃(S₁O), microcapsules by incorporation of T₁O₃ as a phtocatalytic function and by incorporation of inorganic pigment as a color function were also investigated. TiO₂coating properties were controllable by adjusting pH. temperature. and the concentration of TiOSO₄. In XRD measurement, the crystal form of the coated T₁O₂ was anatase. For the colorization of the capsules. inorganic pigments were more efficient than organic dyes. and various color was introduced to the capsules using inorganic pigments