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Progress in Chemistry 2005, Vol. 17 Issue (05): 789-792 Previous Articles   Next Articles

• Review •

Progress in Supercritical Fluid Precipitation Technology Used for Preparation of Microparticles

Hong Hailong**;He Wenzhi;Suo Quanling;A Shan   

  1. School of Chemical Engineering, Inner Mongolia University of Technology,Hohhot 010062,China
  • Received: Revised: Online: Published:
  • Contact: Hong Hailong
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Supercritical fluid precipitation (SFP) technology used for formation of microparticles is attracting wide-spread attention and has exhibited a great perspective application in electronics, ceramics, materials, pharmaceuticals, etc. The concepts, characteristics and the related application of the newly developed SFP technologies including PGSS, SAA and DELOS are introduced, and current issues relating to the SFP technologies are addressed.
Key words: supercritical fluid, precipitation, microparticles, carbon dioxide

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[ 1 ] Charoenchaitrakool M, Dehghani F , Foster N R. Ind. Eng.Chem. Res. , 2000 , 39(12) : 4794 —4802
[ 2 ] Dong Q Z , Young T M. J . Applied Polymer Science , 2003 , 88 :2763 —2768
[ 3 ] Gosselin P , Lacasse F X, Preda M, et al . Pharmaceutical Development and Technology , 2003 , 8(1) : 11 —20
[ 4 ] Krukkonis V J , Gallagher P M, Coffey M P. US 5 360 478 , 1991
[ 5 ] Snavely W K, Subramaniam B , Rajewski R A , et al . J . Pharmaceutical Sciences , 2002 , 91(9) : 2026 —2039
[ 6 ] Rantakyl?M, J? ntti M, Aaltonen O , et al . J . Supercritical Fluids , 2002 , 24(3) : 251 —263
[ 7 ] Subramaniam B , Saim S , Rajewski R A , et al . US 5 874 029 ,1999
[ 8 ] Breitenbach A , Mohr D , Kissel T. J . Controlled Release , 2000 ,63 : 53 —68
[ 9 ] Chattopadhyay P , Gupta R B. Int . J . Pharmac. , 2001 , 228 :19 —31
[10] Hanna M, York P. WO 95/01 221 , 1994
[11] Velaga S P , Berger R , Carlfors J . Pharmaceutical Research ,2002 , 19(10) : 1564 —1571
[12] Juppo A M, Boissier C , Khoo C. Int . J . Pharmac. , 2003 , 250 :385 —401
[13] Sencar-Bozic P , Srcic S , Knez Z , et al . Int . J . Pharmac. ,1997 , 148 : 123 —130
[14] Kerc J , Srcic S , Knez Z , et al . Int . J . Pharmac. , 1999 , 182 :33 —39
[15] Marr R , Gamse T. Chemical Engineering and Processing , 2000 ,(39) : 19 —28
[16] Reverchon E. Ind. Eng. Chem. Res. , 2002 , 41 (10) : 2405 —2411
[17] Reverchon E , Porta GD. J . Supercritical Fluids , 2003 , 26(3) :243 —252
[18] Reverchon E , Porta GD. Chem. Eng. Technol . , 2003 , 26(8) :840 —845
[19] Ventosa N , Veciana J , Rovira C , et al . PCT/ES01/00 327 , 2000
[20] Ventosa N , Sala S , Torres J , et al . Crystal Growth and Design ,2001 , 1 : 299 —303
[21] Ventosa N , Sala S , Veciana J . J . Supercritical Fluids , 2003 , 26(1) : 33 —45
[22] 廖霞(Liao X) , 曾继军(Zeng J J) , 何嘉松(He J S) . 化学通报(Chemistry Online) , 2002 , 1 : 13 —18
[23] 胡爱军(Hu A J) , 丘泰球(Qiu T Q) . 化工进展(Chemical Industry and Engineering Progress) , 2002 , 21(2) : 127 —130
[24] 贺文智(He W Z) , 姜兆华(Jiang Z H) , 索全伶(Suo Q L) . 化学通报(Chemistry Online) , 2003 , 1 : 27 —32
[25] 贺文智(He W Z) , 姜兆华(Jiang Z H) , 索全伶(Suo Q L) . 化学进展(Progress in Chemistry) , 2003 , 15(5) : 361 —366
[26] 程耀(Cheng Y) , 平其能( Ping Q N) . 药学进展( Progress in Pharmaceutical Sciences) , 2004 , 28(2) : 63 —67
[27] 王亭杰(Wang T J) , 堤敦司(Di D S) , 金涌(Jin Y) . 化工学报(Journal of Chemical Industry and Engineering , China) , 2001 ,52(1) : 50 —55
[28] 金良安(Jin L A) , 刘学武(Li X W) , 李志义(Li Z Y) 等. 兵工学报(Acta Armamentarii) , 2003 , 24(4) : 464 —467
[29] 陈鸿雁(Chen H Y) , 蔡建国(Cai J G) , 邓修(Deng X) 等. 化工学报(Journal of Chemical Industry and Engineering , China) ,2001 , 52(1) : 56 —60
[30] He W Z , Suo Q L , Jiang Z H , et al . J . Supercritical Fluids ,2004 , 31 : 101 —110
[31] Fages J , Lochard H , Letourneau J J , et al . Powder Technology ,2004 , 141 : 219 —226
[32] Rodrigues M, Peirico N , Matos H , et al . J . Supercritical Fluids ,2004 , 29 : 175 —184
[33] Sievers R E , Karst U , Milewski P D , et al . Aerosol Sci . Technol . , 1999 , 30 : 3 —11
[34] Sellers S P , Clark G S , Sievers R E , et al . Pharm. Sci . , 2001 ,90 (6) : 785 —792
[35] Sievers R E , Huang E T S , Villa J A , et al . J . Supercritical Fluids , 2003 , 26(1) : 9 —16
[36] Sievers R E , Karst U , Schaefer J D , et al . J . Aerosol Sci . ,1996 , 27 : 497 —498
[37] Reverchon E , Porta G D. Int . J . Pharmac. , 2003 , 258 (1/2) :1 —9
[38] Reverchon E , Spada A. Ind. Eng. Chem. Res. , 2004 , 43(6) :1460 —1465
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