| 227 - 234 |
Solubility of carbon dioxide in dimethylsulfoxide and N-methyl-2-pyrrolidone at elevated pressure
Rajasingam R, Lioe L, Pham QT, Lucien FP |
| 235 - 253 |
Correlating the solubility behavior of minor lipid components in supercritical carbon dioxide
Guclu-Ustundag O, Temelli F |
| 255 - 262 |
Phase behavior of the system lecithin-water - The effects of addition of the hydrocarbon 1,8-cineole and supercritical carbon dioxide
Francisco JD, Topgaard D, Sivik B, Bergenstahl B |
| 263 - 271 |
Phase behavior of the monoolein-water system - The effects of addition of the hydrocarbon 1,8-cineole and supercritical carbon dioxide
Francisco JD, Topgaard D, Sivik B, Bergenstahl B |
| 273 - 286 |
Praseodymium nitrate and neodymium nitrate complexation with organophosphorus reagents in supercritical carbon dioxide solvent
Fox RV, Ball RD, Harrington PD, Rollins HW, Jolley JJ, Wai CA |
| 287 - 294 |
Hydroformylation of styrene in supercritical carbon dioxide with fluoroacrylate polymer supported rhodium catalysts
Kani I, Flores R, Fackler JP, Akgerman A |
| 295 - 299 |
Determination of sulfuric acid first dissociation constants to 400 degrees C and 32 MPa by potentiometric pH measurements
Sue K, Uchida M, Adschiri T, Arai K |
| 301 - 311 |
Hydrothermal reactions of methylamine
Benjamin KM, Savage PE |
| 313 - 322 |
Influence of expansion conditions on the characteristics of cholesterol crystals analyzed by statistical design
Subra P, Berroy P, Saurina J, Domingo C |
| 323 - 328 |
Swelling and dissolution rate measurements of polymer thin films in supercritical carbon dioxide
Pham VQ, Rao N, Ober CK |
| 329 - 333 |
Supercritical CO2-assisted electrospinning
Levit N, Tepper G |
