
Last modified: 2026-07-16 06:38:20
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
|---|---|---|---|---|---|
| Hall E, Day 1 | |||||
| (13:00–13:40) | |||||
| E113 | [Review lecture] Connecting the gaps | Microreactor Catalyst Chemical Process | SY-63 | 933 | |
| (13:40–14:20) | |||||
| E115 | [Review lecture] Oscillatory reaction networks organized by humic substances: New perspectives on reaction control in nature | Humic Substances Self-Organized Redox Reaction Fields Oscillatory Reaction Networks | SY-63 | 963 | |
| (14:20–15:00) | |||||
| E117 | Effects of Metal Salt Additives on Cellulose Conversion in a Mechanochemical Reaction System | biomass conversion mechanochemistry subcritical water | SY-63 | 319 | |
| E118 | Exploring solvent compositions for accelerating hydrolysis rate of poly(lactic acid) | Biodegradable polymer Hydrolysis Machine learning | SY-63 | 100 | |
| Hall E, Day 2 | |||||
| (9:00–10:20) | |||||
| E201 | Development of Cu-encapsulated MFI-type Zr-metallosilicate catalysts for the highly selective synthesis of butadiene from ethanol | Ethanol to Butadiene Cu-encapsulation Zr-MFI | SY-63 | 835 | |
| E202 | Effect of the Structure of Zeolite-Encapsulated Ni Catalysts on the Reaction Behavior of Dry Reforming of Methane | Dry Reforming of Methane Nickel Encapsulation | SY-63 | 834 | |
| E203 | Reduction Conditions and Dry Reforming Performance of Ni Catalysts with a Hydrotalcite Structure | Hydrotalcite Structure Dry Reforming Self Reduction | SY-63 | 132 | |
| E204 | Effect of direct electrical heating on dry reforming of methane over Ni-based structured catalysts | Electric heating dry reforming of methane CCU | SY-63 | 924 | |
| Break | |||||
| (10:40–12:00) | |||||
| E206 | Evaluation of a multi-stage carbon recycle system for CO2 fixation | carbon capture multi-stage CCUS | SY-63 | 452 | |
| E207 | Effect of Co and K additions to Fe-based structured catalyst on solid C formation from C1 compounds | Carbon capture Co addition K promotion | SY-63 | 453 | |
| E208 | Pyrolysis behavior and dissolution of super adsorbent polymer | Super adsorbent polymer Pyrolysis Dissolution | SY-63 | 609 | |
| E209 | Conversion of Waste Plastics into Coke Feedstock Using Mild Pyrolysis Processing | Waste plastics Pyrolysis Co-carbonization | SY-63 | 600 | |
| (13:00–13:40) | |||||
| E213 | [Review lecture] The Evolution of Organic Electrosynthesis: Toward a Deeper Understanding of Electrochemical Reaction Mechanisms | electroorganic synthesis flow chemistry | SY-63 | 961 | |
| (13:40–15:00) | |||||
| E215 | [The Outstanding Paper Award] Comparative Study of Hydrogen Reduction Processes for the Purification of CO2 Methanation Product Gas | Methanation Process simulation Ethanol | SY-63 | 964 | |
| E216 | Installation status of ammonia methanation plants on Osakikamijima Island | Ammonia Methanation Bench Scale Plant | SY-63 | 42 | |
| E217 | Development of Ni/CeO2 catalysts for CO2 methanation at low temperatures | Carbon dioxide methanation Nickel Cerium oxide | SY-63 | 815 | |
| E218 | Effect of SiC substrate size and Ru/CeO2 loading on microwave-irradiated CO2 methanation | CO2 methanation Microwave Structured catalyst | SY-63 | 753 | |
| (15:00–16:00) | |||||
| E219 | Effect of oxygen addition on CO2 methanation by electrically heated structured catalyst | Methanation Structured catalyst Electric heating | SY-63 | 632 | |
| E220 | Effect of structural design of Co-based structured catalysts on bioethanol reforming | Bioethanol reforming Structured catalyst Hydrogen production | SY-63 | 473 | |
| E221 | Characteristics evaluation of bioethanol reforming by electrically-heated Co-based structured catalyst | Bioetanol reformong Electric heating Structured catalyst | SY-63 | 461 | |
| Hall E, Day 3 | |||||
| (9:00–10:20) | |||||
| E301 | Production of hydrogen and CNTs via the pyrolysis of plastic using supported metal catalysts under microwave irradiation | Plastic pyrolysis Microwave Catalyst | SY-63 | 38 | |
| E302 | Liquid ethanol conversion process using electrically activated catalysts | Ethanol conversion Supported metal catalysts Electro-activation | SY-63 | 39 | |
| E303 | Low-Temperature Methanol Synthesis from CO2 over Iron-Based Intermetallic Catalysts | CO2 hydrogenation Methanol synthesis CO2 utilization | SY-63 | 279 | |
| E304 | Activation of Metal Nanoparticle Catalysts Using Metal-Polymer Interactions | Metal catalyst Polymer-supported catalyst Polymer-Metal Interactions | SY-63 | 705 | |
| Break | |||||
| (10:40–12:00) | |||||
| E306 | Effect of Pore Size on Polyolefin Cracking over Nanoporous Aluminosilicates | Chemical Recycling Polymer cracking Pore size | SY-63 | 297 | |
| E307 | Novel Synthesis of High-Niobium-Content MFI-type Zeolites and their Application to the Acetone-To-Olefins Reaction | zeolite Lewis acidity Heteroatom incorporation | SY-63 | 322 | |
| E308 | Effect of physicochemical properties of carbon supports in copper-loaded catalysts for hydrogenation of furfural | furfural copper catalyst hydrogenation | SY-63 | 740 | |
| E309 | Kinetics of Medium-Chain Aldehyde Synthesis from Ethanol and Methanol over Solid Catalysts | ethanol and methanol solid catalyst gas-phase reaction | SY-63 | 880 | |
| (13:00–14:40) | |||||
| E313 | Development of a Low-Cost, Energy-Efficient Depolymerization Technology for PET Chemical Recycling: Fundamental Study of Reaction Conditions | PET chemical recycling alkaline depolymerization fundamental study of reaction conditions | SY-63 | 449 | |
| E314 | Development of a Low-Cost, Energy-Efficient Depolymerization Technology for PET Chemical Recycling: Process Development for Practical Application | PET chemical recycling alkaline depolymerization | SY-63 | 607 | |
| E315 | Development of a new synthetic route for industrial production of carboxylate-type zwitterions | Zwitterion Ion exchange resin Ionic liquid | SY-63 | 584 | |
| E316 | Reaction Control and Valorization in Selective Glucose Oxidation Using Low-Temperature Atmospheric-Pressure Plasma | low-temperature atmospheric pressure plasma reactive oxygen species selective oxidation | SY-63 | 792 | |
| E317 | Catalyst-free direct addition of an amide group to phenol under nonthermal atmospheric-pressure plasma irradiation | Nonthermal atmospheric-pressure plasma irradiation Direct addition of an amide group Reactive species | SY-63 | 187 | |
| Break | |||||
| (15:00–16:20) | |||||
| E319 | Effects of Substrate Surface Treatment on the Activity and Durability of Organic Thin-Film Photocatalysts for CO2 Photoreduction | Photocatalytic CO2 reduction Organic photocatalyst Thin-film photocatalyst | SY-63 | 750 | |
| E320 | DFT computational study of the Mechanism of CO2 Photoreduction by Polycyclic Aromatic Hydrocarbon Derivatives | Organic photocatalysts CO2 reduction DFT calculation | SY-63 | 396 | |
| E321 | Methane Activation by Calcium Ferrite in Chemical Looping Combustion | chemical looping calcium ferrite methane activation | SY-63 | 580 | |
| E322 | Investigation of hydrogen calcination behavior toward direct syngas production via calcium looping | limestone calcination hydrogen | SY-63 | 262 | |
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SCEJ 57th Autumn Meeting (Higashihiroshima, 2026)
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