easp 2.32; proghtml 2.33 (C)1999-2013 kawase
| Time | Paper ID | Title / Autors | Keywords | Topic code | Ack. number |
|---|---|---|---|---|---|
| Symposium <New Developments in Advanced Technology with Sub- and Supercritical Fluids> | |||||
| (9:20–10:00) ( Sasaki M.) | |||||
| Q202 | [Invited lecture] Application of supercritical fluid processes for advanced solar cells and lithium ion battery materials | supercritical fluid solar cell lithium ion battery | S-14 | 31 | |
| (10:00–12:00) ( Watanabe M., Kihara S.) | |||||
| Q204 | Fabrication of compound semiconductor films for CZTS solar cells via supercritical fluid selenization and sulfuration | Solar Cell Supercritical Fluid Thin Film | S-14 | 198 | |
| Q205 | coating of 3-dimensional high aspect ratio through-holes using supercritical carbon dioxide. | Supercritical carbon dioxide 3-D interconnections Copper deposition | S-14 | 820 | |
| Q206 | Supercritical hydrothermal synthesis of perovskite type nanoparticles and its formation mechanism | Supercritical water Hydrothermal synthesis Perovskite structure | S-14 | 51 | |
| Q207 | Elucidation of production mechanism and design technique of rubrene thin films using the rapid expansion of supercritical solutions technique | RESS technique rubrene thin film production thin films design | S-14 | 469 | |
| Q208 | Effects of substrate temperatures on the production of organic-semiconductor thin films by the rapid expansion of supercritical solutions (RESS) technique | RESS technique organic-semiconductor thin films substrate temperatures effects | S-14 | 998 | |
| Q209 | Elucidation of Co-solvent Effects of (-)-Borneol on the Production of Theophylline nanoparticles by the RESS-SC Technique | RESS-SC technique Theophylline nanoparticle production Solid cosolvent effects | S-14 | 471 | |
| (13:00–15:20) ( Sasaki M., Matsuyama K.) | |||||
| Q213 | Polymorphism with the nanoparticle production of drugs by the rapid expansion of supercritical solutions (RESS) technique | RESS technique polymorphism drugs | S-14 | 475 | |
| Q214 | Examination of versatility of nanoparticle design technique of drugs using the rapid expansion of supercritical solutions technique | RESS technique drugs nanoparticle design | S-14 | 472 | |
| Q215 | ScCO2-assisted Electroless Ni-P Plating on Acrylonitrile-Butadiene-Styrene Substrate | electroless plating acrylonitrile-butadiene-styrene hydrophilic modification | S-14 | 612 | |
| Q216 | Injection of functional agents to inside of cotton fiber with supercritical carbon dioxide and water | Injection cotton fiber nanoparticle | S-14 | 64 | |
| Q217 | Effect of water on ophthalmic drug delivery system by supercritical solvent impregnation | supercritical solvent impregnation carbon dioxide ophthalmic drug delivery system | S-14 | 367 | |
| Q218 | Preparation of polymer composite particles with supercritical fluids spraying | polymer compoiste PGSS supercritical fluids | S-14 | 810 | |
| Q219 | The relationships between physical properties of the polymer and the foam morphology in polymer foaming. | foaming polymer supercritical | S-14 | 641 | |
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