SCEJ 91st Annual Meeting (Kyoto, 2026)
Last modified: 2026-01-20 11:12:38
Hall and day program : Hall J
The chairs are under negotiation.
Yellow-back on the Technical sessions and session list denotes the on-site/virtual hybrid sessions.
All other sessions will be the on-site only sessions.
Yellow-back on the Technical sessions and session list denotes the on-site/virtual hybrid sessions.
All other sessions will be the on-site only sessions.
Hall J
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
|---|---|---|---|---|---|
| Hall J, Day 1 | |||||
| 5. Chemical reaction engineering | |||||
| (13:20–14:40) | |||||
| J114 | Synthesis of stereocomplex crystalline nanoparticles of poly(lactic acid) using a micromixer | micromixer nanoparticle biodegradable polymer | 5-f | 9 | |
| J115 | Visible-light-driven flow oxidation reaction utilizing multiple light reflection in a particle-packed bed | Photocatalyst Flow reaction Polymer particle | 5-f | 182 | |
| J116 | Detailed Measurement of Mass Transfer Coefficients in Continuous and Dispersed Phases Using a Slug-Flow Control System | slug flow mass transfer microreactor | 5-f | 488 | |
| J117 | Selective production of lactic acid from cellulose by a novel mechanocatalytic process with cost-effective metal salts | biomass conversion mechanochemistry subcritical water | 5-g | 203 | |
| (15:00–16:40) | |||||
| J119 | Fibrillation Behavior in Producing Lignin-Containing Nanocellulose via Organosolv Pretreatment with Different Solvent Compositions | Lignin-Containing Nanocellulose Organosolv Pretreatment Defibrillation | 5-g | 480 | |
| J120 | Elucidation of the Reaction Pathway in the SA-GBL Reaction System in Biomass-Derivable THF Solvent by comparing with 1,4-dioxane solvent | Gamma-butyrolactone (GBL) Biomass-derivable tetrahydrofuran solvent Reaction pathways | 5-g | 590 | |
| J121 | Acid hydrolysis behavior of cellulose in the presence of VO2+ | cellulose hydrolysis depolymerization | 5-g | 658 | |
| J122 | Recovery of Iron Phosphate from Slag Discharged during the Double-Slag Refining Process | iron phosphate double-slag refining process wet-treatment | 5-i | 27 | |
| J123 | Recovery of valuable elements from multi-layer ceramic capacitor by chlorination | Chlorination Recovery Valuable metals | 5-d | 516 | |
| Hall J, Day 2 | |||||
| (9:20–10:20) | |||||
| J202 | Investigation of Chemical Looping Combustion for VOC Thermal Oxidizer Applications | Chemical looping combustion CO2 capture CCS | 5-e | 38 | |
| J203 | The separation and recovery of bitumen from oil sand by using CO2 desorption of amine solution | CO2 desorption bitumen recovery amine solution | 5-d | 707 | |
| J204 | Identifying Default Solvent Parameters for Hydrogenation Reaction Using Data Analysis Approaches | Hydrogenation Data analysis Solvent investigation | 5-e | 267 | |
| (10:40–12:00) | |||||
| J206 | Dual-OSDA Ultrafast Synthesis of AFX Zeolite for Enhanced Catalytic Performance in Selective Catalytic Reduction of NOx with NH3 | Dual-OSDA AFX zeolite NH3-SCR | 5-f | 512 | |
| J207 | [Invited lecture] Bifunctional Hydrogen Buffer Catalytic System in Hydrodeoxygation | Hydrogen buffer hydrodeoxygenation bio-oil | 5-a | 61 | |
| J209 | [Invited lecture] Carbon quantum dots decorated CdS nanocatalyst for enhanced visible-light photocatalytic hydrogen evolution | Photocatalysis carbon quantum dots hydrogen | 5-a | 62 | |
| (13:20–15:00) | |||||
| J214 | Kinetic Analysis of Ethylene Hydroformylation over Rh/SiO2 Catalysts | reaction kinetics CO insertion nanoparticle | 5-a | 43 | |
| J215 | Kinetics of hydrogen-assisted calcination of limestone: A preliminary study under inert conditions | limestone calcination unreacted core model | 5-a | 99 | |
| J216 | Development of solvent-less mechanochemical asymmetric synthesis using a polymer-immobilized catalyst and ball mill | Polymer-supported catalyst Ball mill Mechanochemistry | 5-a | 198 | |
| J217 | Catalytic Conversion of CO 2 to Lower Olefins for sustainable Materials | CO2 Fischer-Tropsh Lower olefin | 5-a | 333 | |
| J218 | CO2 methanation using hydrogen storage material as hydrogen source | CO2 methanation Hydrogen storage material Ni/CeO2 catalyst | 5-a | 204 | |
| (15:20–17:00) | |||||
| J220 | The development of metal-free carbon catalysts with intrinsic carbon defects for electrochemical CO2 reduction reaction | CO2RR metal-free carbon electrocatalyst intrinsic carbon defect | 5-a | 63 | |
| J221 | Effect of particle size of P4O10 on CO2 reduction performance of P4O10 absorbing ultraviolet, visible and infrared light | P4O10/TiO2 Photocatalyst CO2 Reduction Particle Size | 5-c | 112 | |
| J222 | Electrocatalytic activity enhancement of Pt-shelled core-shell nanoparticles via ultrafine bubbles and ultrasound | Core-shell nanoparticles Ultrafine bubbles Electrocatalysts | 5-a | 555 | |
| J223 | Application of transfer learning to product composition prediction model for catalytic cracking reaction of vegetable oils | catalytic cracking transfer learning reaction prediction | 5-a | 454 | |
| J224 | Optimization of Stirring Blades in the Depolymerization of PET Fibers | stirring blade PET fibers depolymerization | 5-e | 444 | |
| Hall J, Day 3 | |||||
| 8. Supercritical fluid | |||||
| (11:00–11:40) | |||||
| J307 | Development of a prediction model for the partition coefficient in supercritical carbon dioxide extraction | Partition coefficient Supercritical carbon dioxide Machine learning | 8-c | 207 | |
| J308 | Investigation on treatment conditions for recovery of oils and saccharides from chlorella using hot compressed water | Hot compressed water Microalgae Reactive extraction | 8-d | 166 | |
| 5. Chemical reaction engineering | |||||
| Organized Session (CVD Reactions Section, Division of Chemical Reaction Engineering) | |||||
| (13:00–14:40) | |||||
| J313 | Supercritical Fluid Deposition (SCFD) Method for Terahertz Wave Device Formation | Supercritical Fluid Deposition Supecritical Fluid Extraction Copper Deposition on Polymer | 5-h | 696 | |
| J314 | Investigation of Rapid and Conformal Conditions for Cu Film Formation using Supercritical Fluid Deposition on High-Aspect-Ratio Structures | Supercritical Fluid Deposition Copper Deposition High growth rate | 5-h | 604 | |
| J315 | Measurement of Surface Reaction Rate Constanst and Adsorption Equilibrium Constants in Supercritical Fluid Deposition of Cu | Supercritical Fluid Deposition Copper Deposition Langmuir-Hinshelwood reaction kinetics | 5-h | 684 | |
| J316 | Process Informatics Framework for Optimal Control in Supercritical Fluid Deposition(1) | Process informatics Physsics-informed Bayesian Optimization Supercritical fluid deposition | 5-h | 592 | |
| J317 | Process Informatics Framework for Optimal Control in Supercritical Fluid Deposition(2) | Process informatics Physics-informed bayesian optimization Supercritical fluid deposition | 5-h | 603 | |
| (15:00–17:20) | |||||
| J319 | Surface reaction mechanism analysis of SiC chemical vapor deposition using Neural Network Potentials | SiC Chemical Vapor Deposition Neural network potential | 5-h | 639 | |
| J320 | Validation of reaction models for the SiC-CVD process using Quadrupole Mass Spectrometry | SiC CVD Quadrupole Mass Spectrometry | 5-h | 672 | |
| J321 | Investigation of Low-Temperature AlN Deposition and Thermal Conductivity Enhancement by TMA/NH3-Based FM-CVD | AlN CVD 3DIC | 5-h | 676 | |
| J322 | Kinetic analysis of CO2-driven ZnO formation using in-situ Raman spectroscopy | In-situ Raman spectroscopy High-pressure CO2 ZnO formation | 5-h | 202 | |
| J323 | Control Techniques of selectivity using Hydrazine for SiN-ALD | Atomic layer deposition Area selective deposition Hydrazine | 5-h | 134 | |
| J324 | Control of a High-Speed Switching Valve for On-Demand Precursor Delivery in ALD | Atomic Layer Deposition Sustainable Valve | 5-h | 528 | |
| CVD reaction subdivision encouragement award ceremony | |||||
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SCEJ 91st Annual Meeting (Kyoto, 2026)
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