| 333 - 335 |
The 20th anniversary of the Journal of Supercritical Fluids-A special issue on future directions in supercritical fluid science and technology
Kiran E, Brunner G, Smith RL |
| 336 - 343 |
Advances in phase equilibrium engineering of supercritical reactors
Pereda S, Brignole EA, Bottini SB |
| 344 - 350 |
Phase equilibrium-controlled chemical reaction kinetics in high pressure carbon dioxide
da Ponte MN |
| 351 - 356 |
Multiphase catalytic reactions in/under dense phase CO2
Araia M, Fujitaa S, Shirai M |
| 357 - 372 |
Enzymatic reactions in dense gases
Knez E |
| 373 - 381 |
Near critical and supercritical water. Part I. Hydrolytic and hydrothermal processes
Brunner G |
| 382 - 390 |
Near and supercritical water. Part II: Oxidative processes
Brunner G |
| 391 - 399 |
Hydrothermal biomass gasification
Kruse A |
| 400 - 406 |
Oxidation reactions of solid carbonaceous and resinous substances in supercritical water
Koda S |
| 407 - 414 |
A perspective on catalysis in sub- and supercritical water
Savage PE |
| 415 - 430 |
Hydrothermal flames: From phenomenological experimental demonstrations to quantitative understanding
Augustine C, Tester JW |
| 431 - 446 |
Techniques, applications and future prospects of diamond anvil cells for studying supercritical water systems
Smith RL, Fang Z |
| 447 - 457 |
Fluoropolymer synthesis in supercritical carbon dioxide
Du L, Kelly JY, Roberts GW, DeSimone JM |
| 458 - 465 |
Polymer-supercritical fluid interactions
Kikic I |
| 466 - 483 |
Polymer miscibility, phase separation, morphological modifications and polymorphic transformations in dense fluids
Kiran E |
| 484 - 492 |
Supercritical fluids processing of polymers for pharmaceutical and medical applications
Reverchon E, Adami R, Cardea S, Della Porta G |
| 493 - 499 |
Development of CO2 for polymer foam applications
Tomasko DL, Burley A, Feng L, Yeh SK, Miyazono K, Nirmal-Kumar S, Kusaka I, Koelling K |
| 500 - 507 |
Chemical recycling of plastics using sub- and supercritical fluids
Goto M |
| 508 - 516 |
Design of functional nanostructured materials using supercritical fluids
Cansell F, Aymonier C |
| 517 - 522 |
Preparation of metallic supported nanoparticles and films using supercritical fluid deposition
Erkey C |
| 523 - 530 |
Colloids in supercritical fluids over the last 20 years and future directions
Johnston KP, da Rocha SRP |
| 531 - 536 |
Supercritical CO2-continuous microemulsions and compressed CO2-expanded reverse microemulsions
Zhang JL, Han BX |
| 537 - 545 |
Manufacture of submicron drug particles with enhanced dissolution behaviour by rapid expansion processes
Turk M |
| 546 - 555 |
Encapsulation and co-precipitation processes with supercritical fluids: Fundamentals and applications
Cocero MJ, Martin A, Mattea F, Varona S |
| 556 - 565 |
High pressure micronization for food applications
Weidner E |
| 566 - 573 |
Supercritical fluid chromatography for the 21st century
Taylor LT |
| 574 - 582 |
Counter-current separations
Brunner G |
| 583 - 590 |
Perspectives on supercritical fluid processing of fats and oils
Temelli F |
| 591 - 597 |
The extraction and fractionation of specialty lipids using near critical fluids
Catchpole OJ, Tallon SJ, Eltringham WE, Grey JB, Fenton KA, Vagi EM, Vyssotski MV, MacKenzie AN, Ryan J, Zhu Y |
| 598 - 610 |
Multiple unit processing using sub- and supercritical fluids
King JW, Srinivas K |
| 611 - 618 |
Modeling and optimization of supercritical fluid processes
Diaz MS, Brignole EA |
| 619 - 627 |
Enhanced coalbed methane recovery
Mazzotti M, Pini R, Storti G |
| 628 - 636 |
Decentralized chemical processes with supercritical fluid technology for sustainable society
Arai K, Smith RL, Aida TM |
