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Issue
Korean Journal of Chemical Engineering,
Vol.25, No.3, 575-580, 2008
Recrystallization of phenylbutazone using supercritical fluid antisolvent process
Park SJ, Yeo SD
Phenylbutazone was recrystallized from its solutions by using a supercritical fluid antisolvent process. It was dissolved in acetone and supercritical carbon dioxide was injected into the solution, thereby inducing supersaturation and particle formation. Variation in the physical properties of the recrystallized phenylbutazone was investigated as a function of the crystallizing temperature and the carbon dioxide injection rate. The recrystallized particles showed cleaner surfaces and more ordered morphology compared to the particles obtained by other methods such as solvent evaporation. X-ray diffraction patterns indicated that the crystallinity of the particles had been modified upon the recrystallization. Differential scanning calorimetry measurement revealed that the crystallizing temperature influenced the thermal stability of the resulting crystals. Larger crystals were produced when the carbon dioxide injection rate was reduced.
Keywords: Antisolvent; Nucleation; Phenylbutazone; Recrystallization; Supersaturation
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[Cited By]
  1. Kang DY, Min BJ, Rho SG, Kang CH, Korean Chemical Engineering Research, 46(5), 958, 2008
  2. Kim CK, Lee BC, Lee YW, Kim HS, Korean Journal of Chemical Engineering, 26(4), 1125, 2009
  3. Kim CK, Lee BC, Lee YW, Kim HS, Clean Technology, 15(4), 233, 2009
  4. Kwon KT, Uddin MS, Jung GW, Chun BS, Korean Journal of Chemical Engineering, 28(10), 2044, 2011
  5. Yun JH, Lee HY, Asaduzzaman AKM, Chun BS, Journal of Industrial and Engineering Chemistry, 19(2), 686, 2013
  6. Chinnarasu C, Montes A, Pereyra C, Casas L, Fernandez-Ponce MT, Mantell C, Pattabhi S, de la Ossa EM, Korean Journal of Chemical Engineering, 33(2), 594, 2016
  7. Mohammadi HS, Asl AH, Khajenoori M, Korean Journal of Chemical Engineering, 38(11), 2304, 2021
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