| 239 - 245 |
Solubility of three hydroxycinnamic acids in supercritical carbon dioxide
Murga R, Sanz MT, Beltran S, Cabezas JL |
| 247 - 253 |
Cosolvent effect on enhancement of reaction rate constant in near-critical region
Aizawa T, Janttarakeeree S, Ikushima Y, Saitoh N, Arai K, Smith RL |
| 255 - 261 |
Reactions of supercritical alcohols with unsaturated hydrocarbons
Nakagawa T, Ozaki H, Kamitanaka T, Takagi H, Matsuda T, Kitamura T, Harada T |
| 263 - 274 |
Hydrothermal stability of aromatic carboxylic acids
Dunn JB, Burns ML, Hunter SE, Savage PE |
| 275 - 281 |
Stainless steel flow reactor for supercritical water oxidation: corrosion tests
Hayward TM, Svishchev IM, Makhija RC |
| 283 - 295 |
Evidence of conformational changes for protein films exposed to high-pressure CO2 by FT-IR spectroscopy
Striolo A, Favaro A, Elvassore N, Bertucco A, Di Noto V |
| 297 - 307 |
Emulsion stability of PMMA particles formed by dispersion polymerization of methyl methacrylate in supercritical carbon dioxide
Park JY, Shim JJ |
| 309 - 315 |
Polydimethylsiloxanes in supercritical solvent impregnation (SSI) of polymers
Alessi P, Ireneo K, Angelo C, Alessia F, Mariarosa M |
| 317 - 336 |
Manipulation of particle size distribution of poly(L-lactic acid) nanoparticles with a jet-swirl nozzle during precipitation with a compressed antisolvent
Jarmer DJ, Lengsfeld CS, Randolph TW |
| 337 - 344 |
Dry-cleaning with high-pressure carbon dioxide - the influence of process conditions and various co-solvents (alcohols) on cleaning-results
van Roosmalen MJE, Woerlee GF, Witkamp GJ |
