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Search / Korean Journal of Chemical Engineering
HWAHAK KONGHAK,
Vol.41, No.6, 679-688, 2003
초임계유체를 이용한 입자제조
Design of Particles using Supercritical Fluids
이윤우
초임계이산화탄소와 초임계수와 같은 초임계유체의 환경친화적 성질은 미세입자를 제조하는 새로운 재료분야의 응용에 많은 관심의 대상이 되고 있다. 최근에는 초임계유체의 저독성과 불연성 그리고 저렴한 가격 때문에 의약품, 화장품, 세라믹, 식품 그리고 폭약 등에서 이를 이용하여 나노 또는 마이크로입자를 제조하는 공정에 많은 이용되고 있다. 본고에서는 초임계유체를 이용하여 미세입자를 제조하는 대표적인 공정인 RESS(rapid expansion of supercritical solutions), SAS(supercriticalanti solvent) 그리고 PGSS(particles from gas saturated solutions)등에 대하여 중점적으로 소개하고자 한다.
The environmentally friendly nature of supercritical fluids such as supercritical carbon dioxide and supercritical water has led to the exploration of their use in a range of materials applications. In the last few years, several supercritical fluids-based techniques have been proposed for the production of micronic and nanometric particles for potential applications in areas such as pharmaceuticals, cosmetics, inorganics, biomaterials and explosives. Techniques like the rapid expansion of supercritical solutions (RESS), supercritical antisolvent precipitation (SAS), particle generation from gas-saturated solutions (PGSS), and reactive precipitation in supercritical solutions (RPSS) have been critically reviewed.
Keywords: Supercritical Fluid; Particle
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[Cited By]
  1. Lee JH, Kim S, Korean Chemical Engineering Research, 42(2), 202, 2004
  2. Park JY, Lim JS, Park KH, Yoo KP, Korean Chemical Engineering Research, 42(3), 311, 2004
  3. Park JY, Lim JS, Korean Chemical Engineering Research, 42(5), 494, 2004
  4. Kim JD, Park JY, Lee YW, Lim JS, Korean Chemical Engineering Research, 42(5), 545, 2004
  5. Li G, Chu J, Song ES, Row KH, Lee KH, Lee YW, Korean Journal of Chemical Engineering, 23(3), 482, 2006
  6. Song ES, Jung HS, Lee H, Kim JD, Kim H, Lee YW, Clean Technology, 12(2), 53, 2006
  7. Kim YA, Chu J, Lim JS, Kim H, Lee YW, Clean Technology, 11(3), 147, 2005
  8. Kim MY, Yoo KP, Lim JS, Korean Journal of Chemical Engineering, 24(5), 860, 2007
  9. Yun SH, Kim MS, Lee HD, Kim CK, Journal of the Korean Industrial and Engineering Chemistry, 19(1), 37, 2008
  10. Jeong HH, Yoo KP, Lim JS, Journal of Industrial and Engineering Chemistry, 14(1), 77, 2008
  11. Kang DY, Min BJ, Rho SG, Kang CH, Korean Chemical Engineering Research, 46(5), 958, 2008
  12. Yang JS, Ryu WS, Lee SM, Kim KS, Choi MJ, Lee YM, Kim BS, Korean Chemical Engineering Research, 47(4), 453, 2009
  13. Han CN, Kang CH, Korean Chemical Engineering Research, 48(6), 763, 2010
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