Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
---|---|---|---|---|---|
Hall B, Day 1 | |||||
(9:00–10:20) (Chair: Matsuda H., Makino T.) | |||||
B101 | Phase Behavior of CO2/Silicon Alkoxide/Polymer systems | Phase behavior Carbon dioxide Polymer | SE-5 | 821 | |
B102 | Glass transition temperatures measurement of CO2/Polymer using a new apparatus | Glass transition temperatures Carbon dioxide Polymer | SE-5 | 831 | |
B103 | Phase equilibria for the ethylene + hexane + polydisperse polyethylene system under high temperature and high pressure | polydisperse polyethylene phase equilibria Sanchez-Lacombe EOS | SE-5 | 695 | |
B104 | Reactive Separation Utilizing the Synergy of Sub/Supercritical H2O-CO2 System | Subcritical Water Supercritical Carbon Dioxide Reactive Separation | SE-5 | 828 | |
(10:40–12:00) (Chair: Ota M., Nakamura S.) | |||||
B106 | Solubility and interfacial tension of CO2/N2/polystyrene systems | Solubility Interfacial tension Polymer | SE-5 | 825 | |
B107 | Production of theophylline microparticles by particles from gas saturated solutions (PGSS) using supercritical carbon dioxide | Supercritical carbon dioxide PGSS Theophylline microparticles | SE-5 | 935 | |
B108 | [Review lecture] Phase equilibria of alternative solvents for green chemistry | Phase Equilibria green chemistry alternative solvent | SE-5 | 1006 | |
(13:00–13:40) (Chair: Oshima Y.) | |||||
B113 | [Invited lecture] Extended Concept of Solvation toward Unified Analysis for Binding Functions of Soft, Molecular Aggregates | Solvation Binding function Aggregates | SE-5 | 1007 | |
(13:40–14:40) (Chair: Matsubayashi N., Kanakubo M.) | |||||
B115 | Effect of supercritical fluid rectification conditions on the fractionation of natural plant extracts | supercritical fluid rectification fractionation | SE-5 | 516 | |
B116 | The study of condensation and dehydration bio-butanol by sub-critical extraction method with butane | bio-butanol butane extraction | SE-5 | 473 | |
B117 | Supercritical emulsion extraction in slug flow for fabrication of nanoparticle suspension aqueous solution | supercritical carbon dioxide slog flow emulsion extraction | SE-5 | 623 | |
(15:00–16:00) (Chair: Sasaki M., Kawajiri S.) | |||||
B119 | Supercritical Carbon Dioxide Regeneration of Activated Carbon for treating exhaust gas | Supercritical Carbon Dioxide Regeneration Activated Carbon | SE-5 | 429 | |
B120 | Measurement and analysis of catalyst metal precursor adsorption equilibria on porous silica under supercritical carbon dioxide conditions | supercritical impregnation metal precursor adsorption equilibria | SE-5 | 460 | |
B121 | New approach to estimate diffusivity in supercritical CO2 based on reaction kinetics | supercritical fluid deposition diffusivity kinetics | SE-5 | 544 | |
(16:00–17:00) (Chair: Machida H., Otake K.) | |||||
B122 | CO2 recycle from supercritical drying process for semiconductor manufacturing | Supercritical CO2 recycle | SE-5 | 230 | |
B123 | Reforming Nafion membranes for direct methanol fuel cells by supercritical CO2 | supercritical fluid direct methanol fuel cell polymer | SE-5 | 241 | |
B124 | High pressure deposition for polyimide in supercritical carbon dioxide | Supercritical carbon dioxide Polyimide Deposition | SE-5 | 630 | |
Hall B, Day 2 | |||||
(9:20–10:20) (Chair: Shimoyama Y., Gotou T.) | |||||
B202 | Hydrothermal conversion of Japanese papers | Japanese papers Hydrothermal Hydrolysis rate | SE-5 | 686 | |
B203 | Ethanol production from paper sludge pretreated by subcritical water using same vessel saccharification and fermentation | subcritical water paper sludge bio-ethanol | SE-5 | 243 | |
B204 | Monomerization of aramid fiber using subcritical or supercritical water | Chemical recycling Aramid fiber Subcritical water | SE-5 | 888 | |
(10:40–12:00) (Chair: Haruki M., Kawasaki S.-i.) | |||||
B206 | Recycling of phenolic resin composite using supercritical or subcritical fluids | supercritical or subcritical fluids decomposition phenolic resin composite | SE-5 | 252 | |
B207 | Chemical recycling of nylon 6 using subcritical water | Chemical recycling Nylon 6 Subcritical water | SE-5 | 280 | |
B208 | Synthesis of polylactide using organic catalyst in supercritical CO2 | supercritical carbon dioxide polylactide synthesis | SE-5 | 240 | |
B209 | Structure design of titania aerogel synthesized by sol-gel reaction in supercritical carbon dioxide | supercritical carbon dioxide sol-gel reaction titania aerogel | SE-5 | 621 | |
(13:00–14:40) (Chair: Hoshina T., Fujii T.) | |||||
B213 | Hydrothermal dechlorination of PVC in aqueous amine solutions | Hydrothermal Dechlorination Amine | SE-5 | 661 | |
B214 | Supercritical water gasification of hydrothermally pretreated sewage sludge | supercritical water gasification liquefied sewage sludge reaction pathways and kinetics | SE-5 | 704 | |
B215 | Protein solubilization with base additives under hydrothermal conditions | protein hydrothermal base additive | SE-5 | 713 | |
B216 | Leaching of cobalt and lithium from lithium cobalt oxide with acidic solutions under hydrothermal conditions. | Recycle Separations Metal recovery | SE-5 | 801 | |
B217 | Particle size control and Kinetic Analysis on Hydrothermal Nanoparticle Synthesis | nanoparticles hydrothermal synthesis kinetics | SE-5 | 768 | |
(15:00–16:40) (Chair: Aida T., Sako T.) | |||||
B219 | Conversion reaction from amorphous oxide thin film to CZTS thin film using solid chalcogen resources and supercritical ethanol | in situ UV-VIS CZTS thin film supercritical ethanol | SE-5 | 600 | |
B220 | Change of catalytic performance of solid acid catalysts during glycerol dehydration reaction in hot compressed water | Hot compressed water Glycerol dehydration Solid acid catalyst | SE-5 | 392 | |
B221 | Solid base catalyzed reaction in hot compressed water using Mg-Al mixed oxides | Hot compressed water Solid base catalyst Aldol condensation | SE-5 | 575 | |
B222 | [Review lecture] Character and its availability of hot-compressed water as reaction field - Discussion from the perspective of solvent effect | hot compressed water reaction solvent effect | SE-5 | 1009 | |
Hall B, Day 3 | |||||
(9:00–10:00) (Chair: Akizuki M., Tsuji T.) | |||||
B301 | Synthesis of ZrO2-FeOx nano-catalysts using supercritical hydrothermal process for biomass applications | Supercritical Zirconium-iron Catalyst | SE-5 | 356 | |
B302 | Elucidation of crystal growth behavior of boehmite particle modified by octanoic acid in supercritical hydrothermal treatment | supercritical water nanoparticle modification | SE-5 | 407 | |
B303 | Control in morphology and crystal structure of TiO2 nanocrystals thorough the interaction with organic molecules in high-temperature water | nanoparticles TiO2 crystal structure | SE-5 | 469 | |
(10:00–11:20) (Chair: Watanabe M., Furuya T.) | |||||
B304 | Synthesis of functional group displaying CeO2 nano particles to build hybrid materials with various materials | hydrothermal synthesis nanohybrid materials organic- modified nanoparticles | SE-5 | 693 | |
Break | |||||
B306 | Synthesis of ZrO2 nanoparticles modified with π electron molecules for detection of neutrinoless double beta decay in liquid scintillators | Nanoparticles neutrinoless double beta decay liquid scintillators | SE-5 | 863 | |
B307 | Synthesis of hafnium oxide nanoparticles modified with π electron molecules for incorporation to plastic scintillators | nanoparticle plastic scintillators supercritical hydrothermal synthesis | SE-5 | 864 | |
(11:20–12:00) (Chair: Adschiri T.) | |||||
B308 | [Review lecture] Hydrothermal synthesis of photoluminescent nanocarbon | hydrothermal synthesis photoluminescent nanocarbon | SE-5 | 1010 |