화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Korean Journal of Materials Research, Vol.16, No.7, 422-429, July, 2006
DOI10.3740/MRSK.2006.16.7.422  Export Citation
유기 염료-무기 실리카 하이브리드 안료의 제조와 분산잉크로서 응용
Preparation of Organic Dye-Inorganic Silica Hybrid Pigment and It's Application for Inkjet Dispersion Ink
전영민, 김종규, 공명선
  • 단국대학교 화학과
Young-Min Jeon, Jong-Gyu Kim, and Myoung-Seon Gong
  • Department of Chemistry, Dankook University, Chungnam 330-714, Korea
E-mail:
Studies were performed on preparation of organic-inorganic hybrid silica dye in a dispersing ink system. The silica was subjected to surface modification using 3-aminopropyltrimethoxysilane (APTMS) in order to promote the chemical reactivity of the raw silica. On the surfaces of the aminosilane-functionalised silica, red vinylsulfone-containing azo dye was adsorbed. The dye was found to have chemically reacted with the aminosilane-grafted silica surface, which was proven by FT-IR spectra. Studies on morphology and microstructure were performed employing scanning electron microscopy. The SEM micrographs and particle size distributions showed that a homogeneous pigment can be obtained employing silica as a core. Particle size distribution was also examined using the technique of dynamic light scattering. The ensuing pigment was subjected to various physicochemical evaluation such as inkjet property, storage stability, color change as inkjet ink using printer, spectrophotometric, microscopic techniques. Studies on hybrid dyes from the silica surface demonstrated that, in general, stable pigments for inkjet dispersion ink were obtained.
Keywords:silica;hybrid pigment;azo dye;inkjet dispersion ink
  1. Legrand AP, The Surface Properties of Silicas, John Wiley & Sons, New York, 145 (1998) (1998)
  2. Vansant EF, Van Der Voort P, Vrancken KC, Characterization and Chemical Modification of the Silica Surface, Elsevier, Amsterdam, (1995) (1995)
  3. Mittel KI, Silane and Other coupling Agents, VSP, Urecht, (1992) (1992)
  4. Impens NREN, Van Der Voort P, Vansant EF, Microporous and Mesoporous Materials, 28, 217 (1999)
  5. Iler RK, The chemistry of silica. John Wiley & Sons, 462 (1979)
  6. Bergana HE, The colloid chemistry of silica, Advances in Chemistry Series 234, ACS, Washington, D.C., (1994) (1994)
  7. Matijevic E, J. Eur. Ceram. Soc., 18, 1357 (1998)
  8. Krysztafkiewicz A, Binkowski S, Wysocka W, Powder Technol., 132(2-3), 190 (2003)
  9. Lo D, Parris JE, Lawless JL, Appl. Phys. B, 56, 385 (1993)
  10. Parida SK, Mishra BK, J. Colloid Interface Sci., 182(2), 473 (1996)
  11. Parida SK, Mishra BK, Colloid. Surf. A, 134, 249 (1998)
  12. Ledger R, Stellwagen EJ, Chrornatogr., 299, 175 (1984)
  13. Giesche H, Matijevic E, Dyes and Pigments, 17, 323 (1991)
  14. Wu GW, Koliadima A, Her YS, Matijevic E, J. Colloid Interface Sci., 195(1), 222 (1997)
  15. Jesionowski T, Dyes and Pigments, 55, 133 (2002)
  16. Jesionowski T, Pokora M, Tylus W, Dec A, Krysztafkiewicz A, Dyes and Pigments, 57, 29 (2003)
  17. Jesionowski T, Krysztafkiewicz A, Binkovski S, Dyes and Pigments, 65, 267 (2005)
  18. US Patent 4,566,908 (1986) (1986)
  19. US Patent 4,576,888 (1986) (1986)
  20. US Patent 4,877,451 (1989) (1989)
  21. Winnik FM, Kecshkerian B, Fuller JR, Hofstra PG, Dyes and Pigments, 14, 101 (1990)
  22. Hsu WP, Yu R, Matijevic E, Dyes and Pigments, 19, 222 (1992)
  23. Tentoririo A, Matijevic E, Kratohvil JP, J. Colloid. & Interf. Sci., 77, 418 (1980)
  24. Matijevic E, Aiken B, Hsu WP, J. Am. Ceram. Soc., 71, 845 (1988)
  25. Rappoport Z, 'Advances in Physical Organic Chemistry', Vol. 7, Academic Press, London & New York, (1969) (1969)
  26. Ingold CK, Cornell Univ. Press, 193 (1953)
  27. Nobler P, Jr. Borgardt TG, Reed WL, Chem. Rev., 64, 19 (1964)
  28. Patai S, Rappoport Z, The Chemistry of Alkenes, Ch.8, John Wiley & Sons. New York, (1964) (1964)