Time | Prog. No. | Title/Author(s) | Keywords | Topics code | ACKN No. |
---|---|---|---|---|---|
Room N Day 1 | |||||
(9:00-10:00) (Chairperson Y. Takebayashi) | |||||
N101 | (JPN) Automatic measurement of viscosity decrease phenomena of gas expanded liquids using simple viscosity measurement system | viscosity gas expanded liquid carbon dioxide | 8-b | 169 | |
N102 | (JPN) Measurements of partial molar volumes and diffusion coefficients by supercritical fluid chromatography | supercritical fluid chromatography partial molar volume diffusion coefficient | 8-b | 506 | |
N103 | (JPN) Prediction of High-Pressure Kinematic Viscosity for Supercritical Carbon Dioxide + Solvent Systems Using Excess Free Energy Mixing Rule + NRTL Model | HIgh-Pressure Kinematic Viscosity Excess Free Energy Mixing Rule NRTL Model | 8-b | 260 | |
(10:00-11:00) (Chairperson T. Aizawa) | |||||
N104 | (JPN) Dynamics properties of water-methanol mixtures from ambient to supercritical conditions using molecular dynamics simulation | dynamics properties simulation water+methanol | 8-b | 361 | |
N105 | (JPN) Near-infrared spectroscopic study of solubility of carbon dioxide in molten naphthalene under high pressure | carbon dioxide solubility near infrared spectroscopy | 8-b | 292 | |
N106 | (JPN) Resonance Properties of Surface Acoustic Wave Resonator in Supercritical CO2 | supercritical CO2 density fluctuation surface acoustic wave | 8-g | 105 | |
(11:00-12:00) (Chairperson C. Y. Kong) | |||||
N107 | (JPN) Subcritical dimethyl ether assists microalgae to fuel processes in reaching a positive energy balance | Subcritical dimethyl ether Microalgae Wet extraction | 8-c | 157 | |
N108 | Supercritical CO2-Modified Hydrothermal Extraction of Bioactive Compounds from Garcinia mangostana Pericarp | Supercritical Carbon Dioxide Hydrothermal Mangosteen | 8-c | 479 | |
N109 | (JPN) Extraction of valuable compounds from japanese citrus using supercritical carbon dioxide | Supercritical carbon dioxide Japanese citrus bioactive compound | 8-c | 710 | |
(13:00-14:00) (Chairperson T. Sako) | |||||
N113 | (JPN) Influence of the temperature and the pressure on the yield of Claisen rearrangement reaction of allyl phenyl ether in the high temperature and pressure region including the super critical region. | Supercritical Fluid Allyl phenyl ether Claisen Rearrangement | 8-d | 787 | |
N114 | (JPN) Effects of catalysis and solvation by water on decomposition of formic acid in hot-compressed water | formic acid hot-compressed water solvation effect | 8-d | 77 | |
N115 | (JPN) Hydration of pinene in hot compressed water using solid acid catalysts | Hot and compressed water Pinene Solid acid catalyst | 8-d | 285 | |
(14:00-15:20) (Chairperson M. Maebayashi) | |||||
N116 | Hydrogenation of Diphenyl Ether in Supercritical Carbon Dioxide using Rh/C catalyst | Supercritical carbon dioxide Hydrogenation diphenyl ether | 8-d | 111 | |
N117 | (JPN) CO2 photoreduction in supercritical CO2 in the presence of transition metal catalyst | photoreduction supercritical CO2 | 8-d | 318 | |
N118 | (JPN) Hydrogeneration of lignin in high-pressure and high-temperature water | microreactor high-pressure and high-temperature lignin | 8-d | 317 | |
N119 | Coupling Microwave Irradiation and Hydrothermal Treatment for Degradation and Extraction of More Bioactive Low-Molecular-Weight Fucoidan | microwave hydrothermal fucoidan | 8-d | 514 | |
(15:20-16:40) (Chairperson Y. Oshima) | |||||
N120 | (JPN) Dissolution of okara in hot compressed water | Bean curd refuse hot compressed water biomass | 8-d | 338 | |
N121 | (JPN) Hydrolysis of cellulose with dilute acid aqueous solution under hydrothermal conditions | cellulose hydrothermal oligomer | 8-d | 161 | |
N122 | (JPN) Depolymerization of polycarbonate with methylamine solution under hydrothermal conditions | hydrothermal polycarbonate product depolymerization | 8-d | 164 | |
N123 | (JPN) Decomposition and decoloration of dying wastewater using steam/Subcritical water | Subcritical water Dying wastewater decomposition | 8-f | 556 | |
Room N Day 2 | |||||
(9:00-10:00) (Chairperson H. Uchida) | |||||
N201 | (JPN) Synthesis of barium zirconate nanoparticles using supercritical water | Supercritical water Hydrothermal synthesis Barium zirconate | 8-e | 51 | |
N202 | (JPN) Solvothermal synthesis of copper-silver alloy nanoparticles in supercritical ethanol solvent | supercritical ethanol nanoparticle copper | 8-e | 127 | |
N203 | (JPN) Mass production of high-quality nanographene by supercritical fluid exfoliation | Supercritical fluid Graphene Mass production | 8-e | 98 | |
(10:00-11:00) (Chairperson S. Takishima) | |||||
N204 | (JPN) Nanonization of Lycopene/β-Cyclodextrin complex by supercritical antisolvent | supercritical antisolvent carotenoid cyclodextrin | 8-e | 508 | |
N205 | (JPN) Effects of Solution Concentration on the Particle Production of Theophylline by the Supercritical Antisolvent (SAS) Crystallization in Micro-Space | Supercritical antisolvent crystallization Micro-space Theophylline microparticles | 8-e | 716 | |
N206 | (JPN) Effects of Experimental Conditions of Particle Collection Section on the Production of Caffeine Microparticles by the Rapid Expansion of Supercritical Solutions (RESS) Technique | Rapid expansion of supercritical solutions Technique Caffeine microparticles Experimental conditions effects of particle collection section | 8-e | 728 | |
(11:00-12:00) (Chairperson M. Goto) | |||||
N207 | Preparation of superhydrophobic poly methyl methacrylate surface by rapid expansion of supercritical carbon dioxide-paraffin wax solution spray coatings | Supercritical Carbon Dioxide Superhydrophoic Spray Coatings | 8-e | 205 | |
N208 | (JPN) Fundamental study for the microfabrication of polyimide using supercritical carbon dioxide | supercritical carbon dioxide polyimide microfabrication | 8-e | 428 | |
N209 | (JPN) Porous Polyimide-Silica Composite via Solid-Liquid Phase Separation by High Pressure CO2. | high pressure carbone dioxide phase separation sol-gel process | 8-e | 60 | |
Room N Day 3 | |||||
(9:00-10:00) (Chairperson T. Momose) | |||||
N301 | (JPN) Structural change of PET oligomer with supercritical fluid treatment | PET oligomer supercritical fluid | 8-e | 637 | |
N302 | (JPN) Influence of ligands of palladium complexes on palladium-Nafion composite membranes using supercritical impregnation method for direct methanol fuel cell. | supercritical carbon dioxide direct methanol fuel cell composite membrane | 8-e | 121 | |
N303 | (JPN) Utilization of high pressure CO2 for nano-micro fibers from polymer by electrospinning | electrospinnig supercritical | 8-e | 672 | |
(10:00-11:00) (Chairperson K. Taki) | |||||
N304 | (JPN) Emission Intensity of Pulsed Laser Ablation in Supercritical CO2 | Supercritical CO2 Laser ablation Intensity | 8-e | 783 | |
N305 | (JPN) Methodology development of efficient precursor supply in flow-type SCFD using Cu- and Mn- organics via solubility measurement | supercritical fluid deposition solubility | 8-e | 511 | |
N306 | (JPN) Reaction analysis of SiO2-SCFD using hot-wall type flow channel reactor | SiO2 supercritical deposition | 8-e | 597 | |
(11:00-12:00) (Chairperson N. Kometani) | |||||
N307 | Supercritical fluid deposition of crystallized TiO2 with assistance of alcohol | Supercritical Fluid Deposition TiO2 Anatase | 8-e | 477 | |
N308 | Kinetics study of TiO2 deposition in supercritical CO2 using Micro-/Macro-cavity method | Supercritical fluid deposition TiO$2$ Micro-/Macro-cavity | 8-e | 483 | |
N309 | (JPN) Development of flexible porous low-k film by large-scale high-pressure lithography system | carbon dioxide low-k porous film | 8-e | 320 |