| 193 - 202 |
High-pressure phase equilibria of systems carbon dioxide plus n-eicosane and propane plus n-eicosane
Rodriguez-Reartes SB, Cismondi M, Franceschi E, Corazza ML, Oliveira JV, Zabaloy MS |
| 203 - 209 |
Supercritical CO2 and highly selective aromatase inhibitors: Experimental solubility and empirical data correlation
Hojjati M, Vatanara A, Yamini Y, Moradi M, Najafabadi AR |
| 210 - 217 |
Development of activity coefficient model based on COSMO method for prediction of solubilities of solid solutes in supercritical carbon dioxide
Shimoyama Y, Iwai Y |
| 218 - 224 |
Supercritical extraction of sunflower seed oil: Experimental data and model validation
Fiori L |
| 225 - 228 |
Extraction of caffeine from tea stalk and fiber wastes using supercritical carbon dioxide
Icen H, Guru M |
| 229 - 234 |
Supercritical CO2 extraction of Plumula nelumbinis oil: Experiments and modeling
Jia DD, Li SF, Xiao L |
| 235 - 239 |
Corrosion behavior of ferritic/martensitic steel P92 in supercritical water
Yin KJ, Qiu SY, Tang R, Zhang Q, Zhang LF |
| 240 - 249 |
Experimental study of hydrothermal flames initiation using different static mixer configurations
Bermejo MD, Cabeza P, Bahr M, Fernandez R, Rios V, Jimenez C, Cocero MJ |
| 250 - 256 |
Continuous hydrothermal synthesis of HT-LiCoO2 in supercritical water
Shin YH, Koo SM, Kim DS, Lee YH, Veriansyah B, Kim J, Lee YW |
| 257 - 264 |
Dehydration of lactic acid to acrylic acid in high temperature water at high pressures
Aida TM, Ikarashi A, Saito Y, Watanabe M, Smith RL, Arai K |
| 265 - 275 |
Laser analyses of mixture formation and the influence of solute on particle precipitation in the SAS process
Dowy S, Braeuer A, Reinhold-Lopez K, Leipertz A |
| 276 - 282 |
Continuous supercritical hydrothermal synthesis of controlled size and highly crystalline anatase TiO2 nanoparticles
Kawasaki S, Xiuyi Y, Sue K, Hakuta Y, Suzuki A, Arai K |
| 283 - 291 |
Characterization of surface-modified ceria oxide nanoparticles synthesized continuously in supercritical methanol
Veriansyah B, Park H, Kim JD, Min BK, Shin YH, Lee YW, Kim J |
| 292 - 296 |
Fabrication of hollow silica particles using copolymeric spheres prepared in supercritical carbon dioxide
Hwang HS, Bae JH, Park I, Park JM, Lim KT |
| 297 - 304 |
Supercritical wood impregnation
Kjellow AW, Henriksen O |
| 305 - 312 |
Impregnation of a triphenylpyrylium cation into zeolite cavities using supercritical CO2
Lopez-Periago AM, Fraile J, Garcia-Gonzalez CA, Domingo C |
| 313 - 319 |
Low temperature deposition of titanium oxide containing thin films in trench features from titanium diisopropoxide bis(dipivaloylmethanate) in supercritical CO2
Kano F, Uchida H, Koda S |
| 320 - 326 |
Mathematical modelling of the solubility of supercritical CO2 in poly(L-lactide) and poly(D,L-lactide-co-glycolide)
Aionicesei E, Skerget M, Knez Z |
| 327 - 335 |
Production of PLGA micro- and nanocomposites by supercritical fluid extraction of emulsions: I. Encapsulation of lysozyme
Kluge J, Fusaro F, Casas N, Mazzotti M, Muhrer G |
| 336 - 343 |
Production of PLGA micro- and nanocomposites by supercritical fluid extraction of emulsions: II. Encapsulation of Ketoprofen
Kluge J, Fusaro F, Mazzotti M, Muhrer G |
