| 331 - 335 |
Excess molar enthalpies for mixtures of supercritical carbon dioxide and 1,8-cineole
Sanchez-Vicente Y, Perez E, Cabanas A, Renuncio JAR, Urieta JS, Pando C |
| 336 - 343 |
Equilibrium distribution of water in the two-phase system supercritical carbon dioxide-textile
van der Kraan M, Cid MVF, Woerlee GF, Veugelers WJT, Peters CJ, Witkamp GJ |
| 344 - 348 |
Supercritical carbon dioxide extraction of acorn oil
Bernardo-Gil MG, Lopes IMG, Casquilho M, Ribeiro MA, Esquivel MM, Empis J |
| 349 - 353 |
Supercritical carbon dioxide fractionation of fish oil fatty acid ethyl esters
Perretti G, Motori A, Bravi E, Favati F, Montanari L, Fantozzi P |
| 354 - 359 |
GC/MS characterization of mate tea leaves extracts obtained from high-pressure CO2 extraction
Jacques RA, Santos JG, Dariva C, Oliveira JV, Caramao EB |
| 360 - 367 |
Supercritical CO2 extraction of essential oil from yarrow
Bocevska M, Sovova H |
| 368 - 375 |
Optimisation of SFE method on-line coupled to FT-IR spectroscopy for the real-time monitoring of the extraction of tagitinin C in T-diversifolia
Ziemons E, Mbakop NW, Rozet E, Lejeune R, Angenot L, Thunus L, Hubert P |
| 376 - 380 |
Is heat transfer governing chemical reactions in supercritical fluids?
Mantelis CA, Lavanchy F, Meyer T |
| 381 - 388 |
Dehydration Of D-glucose in high temperature water at pressures up to 80 MPa
Aida TM, Sato Y, Watanabe M, Tajima K, Nonaka T, Hattori H, Arai K |
| 389 - 396 |
Synthesis of nano-sized YAG : Eu3+phosphor in continuous supercritical water system
In JH, Lee HC, Yoon MJ, Lee KK, Lee JW, Lee CH |
| 397 - 401 |
Hydrothermal synthesis and in situ surface modification of boehmite nanoparticles in supercritical water
Mousavand T, Ohara S, Umetsu M, Zhang J, Takami S, Naka T, Adschiri T |
| 402 - 419 |
A simplified and generalized model for the rapid expansion of supercritical solutions
Weber M, Thies MC |
| 420 - 432 |
Nanoparticles formation for metallocene catalyzed cyclic olefin copolymer via a continuous supercritical anti-solvent process
Chang SC, Lee MJ, Lin HM |
| 433 - 442 |
Particle formation of an edible fat (rapeseed 70) using the supercritical melt micronization (ScMM) process
Munuklu P, Jansens PJ |
| 443 - 451 |
A new system for particle formation using the principle of the SAS process: The Concentric Tube Antisolvent Reactor (CTAR)
Boutin O, Maruejouls C, Charbit G |
| 452 - 461 |
Solubility, swelling degree and crystallinity of carbon dioxide-polypropylene system
Lei ZG, Ohyabu H, Sato Y, Inomata H, Smith RL |
| 462 - 469 |
Supercritical CO2 impregnation of Radiata pine with organic fungicides - Effect of operating conditions and two-parameters modeling
Lucas S, Gonzalez E, Calvo MP, Palencia C, Alonso E, Cocero MJ |
| 470 - 476 |
Dyeing of natural and synthetic textiles in supercritical carbon dioxide with disperse reactive dyes
van der Kraan M, Cid MVF, Woerlee GF, Veugelers WJT, Witkamp GJ |
| 477 - 484 |
A significant approach to dye cotton in supercritical carbon dioxide with fluorotriazine reactive dyes
Cid AVF, van Spronsen J, van der Kraan M, Veugelers WJT, Woerlee GF, Witkamp GJ |
| 485 - 489 |
Supercritical gases pasteurization of apple juice
Spilimbergo S, Mantoan D, Dalser A |
| 490 - 496 |
High pressure CO2 inactivation of food: A multi-batch reactor system for inactivation kinetic determination
Parton T, Elvassore N, Bertucco A, Bertoloni G |
