Last modified: 2024-09-19 02:24:28
Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
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Hall Q, Day 1 | |||||
SY-73 [Symposium of Division of Supercritical Fulids] Latest Trends in Supercritical Fluid Utilization Technology | |||||
(9:00–10:20) (Chair: | |||||
Q101 | Drug impregnation process onto mesoporous silica SBA-15 by supercritical fluid method | Supercritical carbon dioxide, Mesoporous silica drug delivery system | SY-73 | 619 | |
Q102 | Improvement of performance of Ph-BTBT-10 thin-film transistors produced by rapid expansion of supercritical solutions (RESS) using CO2 | RESS Organic thin films Supercritical CO2 | SY-73 | 822 | |
Q103 | Evaluation of salt reduction effects on NaCl particles produced by supercritical assisted atomization with spray drying (SAA-SD) using CO2 | Reducing salt Supercritical assisted atomization Supercritical CO2 | SY-73 | 838 | |
Q104 | Preparation of β-carotene nanoparticles in supercritical CO2 antisolvent precipitation by mixing with liquefied DME feed solution using swirl mixer | beta-carotene nanoparticle supercritical CO2 antisolvent liquefied DME | SY-73 | 94 | |
(10:20–11:00) (Chair: | |||||
Q105 | [Requested talk] Attentions in understanding solubility and phase equilibria of supercritical systems in terms of phase rules | Supercritical Phase Rules solubility | SY-73 | 205 | |
(11:00–12:00) (Chair: | |||||
Q107 | QM simulations of precipitation mechanism of Mn(II)-citrate complex formed from citric acid leaching of LiMn2O4 | Hydrothermal leaching Mn(II)-citrate complex QM | SY-73 | 761 | |
Q108 | Prediction of Solubility of Quinones in Supercritical Carbon Dioxide for Fabrication of Organic Materials Impregnated Carbon Electrodes | Supercritical Carbon Dioxide Solubility Capacitor | SY-73 | 224 | |
Q109 | Development of a graph neural network (GNN) model for predicting the solubility of organic compounds in supercritical CO2 | Supercritical Solubility prediction Machine learning | SY-73 | 851 | |
(13:00–13:40) (Chair: | |||||
Q113 | [Invited lecture] Physical property prediction based on machine learning and ab initio calculation | Machine learning Physical property Transfer learning | SY-73 | 537 | |
(13:40–14:40) (Chair: | |||||
Q115 | Molecular informatic and thermodynamic analysis of promoting effect on pharmaceutical cocrystallization in high-pressure CO2 | pharmaceutical crystal thermodynamic quantum chemical calculation | SY-73 | 610 | |
Q116 | Thermal characteristics of pharmaceutical crystals in high-temperature supercritical carbon dioxide | Supercritical carbon dioxide Thermal decomposition Organic compounds | SY-73 | 779 | |
Q117 | Optimization of micro-flow system for a continuous synthesis of silver nanoparticles using supercritical CO2 emulsion | silver nanoparticle supercritical CO2 emulsion flow synthesis | SY-73 | 945 | |
Break | |||||
(15:00–15:40) (Chair: | |||||
Q119 | [Invited lecture] Construction of an automated synthesis/analysis system directly connecting a supercritical fluid chromatograph and a synthesis robot. | supercritical fluid chromatograph automated synthesis robot information science | SY-73 | 297 | |
(15:40–16:40) (Chair: | |||||
Q121 | Fundamental Study on the Application of Supercritical Fluid Chromatography to Kinetic Analysis of Cyclic Carbonate Synthesis | supercritical fluid chromatography CO2 cycloaddition reaction ionic liquid | SY-73 | 221 | |
Q122 | PdCu nanoparticle catalysts through supercritical CO2-assisted immobilization for flow Sonogashira coupling reaction | PdCu nanoparticle Sonogashira coupling reaction flow reactor | SY-73 | 878 | |
Q123 | Supercritical CO2 assisted Cu nanoparticle/MOF composite preparation for CO2 hydrogenation reaction | Cu nanoparticle CO2 hydrogenation reaction metal-organic framework | SY-73 | 871 | |
(16:40–17:40) (Chair: | |||||
Q124 | Process design based kinetic approach on synthesis of iron oxide nanoparticles using supercritical CO2 method | kinetic analysis supercritical CO2 iron oxide nanopartice | SY-73 | 613 | |
Q125 | Semi-batch extraction process for hybrid nanoparticles based on solubility parameters to control particle size distribution. | Hybrid nanoparticles Supercritical CO2 Solubility parameter | SY-73 | 390 | |
Q126 | Surface modification of nanodiamonds by polyacrylic acid in supercritical carbon dioxide | Supercritical carbon dioxide Nanodiamonds Polyacrylic acid | SY-73 | 515 | |
Hall Q, Day 2 | |||||
(9:00–10:20) (Chair: | |||||
Q201 | Evaluation of the ultrafine bubble stability at high-temperature conditions | Ultrafine bubble Nano bubble Micro bubble | SY-73 | 1015 | |
Q202 | Kinetic study of the effect of solvent composition on acid-catalyzed reactions in hot compressed water-methanol mixture | hot compressed water-methanol mixture solvent effect acid-catalyzed reaction | SY-73 | 206 | |
Q203 | Consideration of fuel use and cascade use of macroalgae by hydrothermal treatment | hydrothermal treatment macroalgae fuel utilization | SY-73 | 282 | |
Q204 | Effects of low temperature hydrothermal process on protein conversion during two-stage hydrothermal liquefaction | Two-stage hydrothermal liquefaction Bio-oil Protein | SY-73 | 539 | |
Break | |||||
(10:40–11:20) (Chair: | |||||
Q206 | [Invited lecture] Conversion of unutilized resources to energy and platform chemicals using hot compressed fluids | biomass supercritical water gasification transfer hydrogenolysis | SY-73 | 460 | |
(11:20–12:00) (Chair: | |||||
Q208 | Hydrothermal decomposition of bamboo powder for producing sugars | hydrotheremal bamboo sugar | SY-73 | 228 | |
Q209 | Micronization of silk fibroin by mechanical milling and production of hydrogel by hydrothermal treatment | Silk fibroin Mechanical milling Hydrogel | SY-73 | 632 | |
(13:00–13:40) (Chair: | |||||
Q213 | [Requested talk] Development and commercial study of cosmetic raw materials using liquefied dimethyl ether | Liquefied dimethyl ether Extraction Cosmetic raw material | SY-73 | 918 | |
(13:40–15:00) (Chair: | |||||
Q215 | Effect of polymer flocculants on lipid extraction from diatom by using liquefied dimethyl ether. | Microalgae Subcritical fluid Renewable resource | SY-73 | 148 | |
Q216 | Extraction of sunflower seeds oil using CO2 expanded liquids | Extraction Bio-oil CO2 expanded liquid | SY-73 | 322 | |
Q217 | Condition Dependence on Aroma Extraction of "Kuromoji" by Supercritical Carbon Dioxide and Comparison among Tree Species | supercritical carbon dioxide aroma extraction | SY-73 | 242 | |
Q218 | Coffee Decaffeination Process Using Pressure Control: Modeling and Pretreatment Simplification | Supercritical CO2 Decaffaination Pressure Control | SY-73 | 1116 | |
(15:00–16:00) (Chair: | |||||
Q219 | Model Analysis for Extraction Behavior of Rice Bran Oil from Rice Bran by Supercritical CO2 | supercritical carbon dioxide extraction rice bran oil group contribution method | SY-73 | 545 | |
Q220 | Flow system using CO2-dissolved into oil for formation of W/O/W emulsion | CO2-dissolved into oil water-in-oil-in-water emulsion flow system | SY-73 | 830 | |
Q221 | Preparation of curcumin-loaded liposomes by ultrasound-assisted method using mixtures of subcritical carbon dioxide and dimethyl ether | curcumin-loaded liposome dimethyl ether subcritical carbon dioxide | SY-73 | 186 | |
Hall Q, Day 3 | |||||
(9:00–10:00) (Chair: | |||||
Q301 | Phase state of blowing agents on the foaming of polystyrene using carbon dioxide/methanol mixture | carbon dioxide methanol polystyrene foaming | SY-73 | 475 | |
Q302 | Chemical recycling of general-purpose plastics using hydrothermal treatment | Hydrothermal treatment Liquefaction Dechlorination | SY-73 | 465 | |
Q303 | Reaction Behavior Analysis of Polycarbonate Hydrolysis in the Different Type of Apparatus | Polycarbonate Hydrolysis Apparatus | SY-73 | 1112 | |
(10:00–10:40) (Chair: | |||||
Q304 | [Review lecture] Future of the reactions in supercritical water and high-temperature water -Plastics development based on recycling & reaction prediction using natural language processing- | Plastic recycling Machine learning Hydrothermal | SY-73 | 1044 | |
(10:40–12:00) (Chair: | |||||
Q306 | Solvothermal synthesis of multinary alloy nanoparticle and evaluation of electrochemical catalytic property | multinary alloy nanoparticle Solvothermal synthesis metal-organic framework | SY-73 | 863 | |
Q307 | Hydrothermal synthesis of high-entropy oxide nanoparticles as oxygen evolution electrocatalysts | Hydrothermal synthesis High-entropy oxide Oxygen evolution | SY-73 | 803 | |
Q308 | Size Control of BaTiO3 nanoparticles synthesis in hot compressed water using dual-stage reactor | hot compressed water nanoparticle synthesis dual-stage reactor | SY-73 | 740 | |
Q309 | Synthesis of surface-modified ZrO2 nanoparticles using two aromatic carboxylic acids and their application to liquid scintillators | Hydrothermal Synthesis ZrO2 Surface Modification | SY-73 | 1113 | |
(13:00–13:20) (Chair: | |||||
Q313 | [The Outstanding Paper Award] Quantitative Evaluation of Enzyme-Assisted Supercritical CO2 Extraction of Natural Essential Oil from Yuzu Peel and Evaluation for the Functionality of the Extraction Residue | Extraction Supercritical CO2 Enzyme | SY-73 | 178 | |
(13:20–14:20) (Chair: | |||||
Q314 | [Featured presentation] Development of vinegar production technology using rice bran and sake lees through subcritical water pretreatment | Subcritical water Sake lees Rice bran | SY-73 | 1090 | |
Q315 | Investigation of basicity of zirconium oxide-based mixed oxide catalysts and roles of water for organic reactions in subcritical water | Subcritical water Solid base catalysis Roles of water | SY-73 | 530 | |
Q316 | Establishment of media design guideline for acceleration of supercritical nano washing process | surface modified nanoparticles supercritical CO2 washing entrainer | SY-73 | 279 | |
(14:20–15:20) (Chair: | |||||
Q317 | Study on Devulcanization Method for Tire Rubber for Realization of Sustainable Society: Effects of Supercritical CO2 Fluid and Dispersant | de-vulcanization rubber reclaiming high-pressure fluids mixing | SY-73 | 982 | |
Q318 | Development of a new type of mixer using supercritical CO2 | Supercritical CO2 Mixing Rubber | SY-73 | 923 | |
Q319 | Development of rubber mixer using supercritical CO2 for the mixing process with chemical reaction | Supercritical fluid Mixing Rubber | SY-73 | 505 | |
(15:20–15:40) (Chair: | |||||
Student awards ceremony |
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SCEJ 55th Autumn Meeting (Sapporo, 2024)