
Last modified: 2026-07-16 06:38:20
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
|---|---|---|---|---|---|
| Hall G, Day 1 | |||||
| ST-27 [Trans-Division Symposium] CVD/ALD & Dry Process, Control of Structure and unction of material by reaction engineering | |||||
| (13:20–16:00) | |||||
| G114 | [Review lecture] What is the “cutting edge of semiconductor devices”? Considering this from the history of 3D device | Semiconductor Logic Memory | ST-27 | 347 | |
| G116 | Control of a High-Speed Switching Valve for On-Demand Precursor Delivery in ALD II : Analysis of Flow Rate Response | Atomic Layer Deposition Sustainable Valve | ST-27 | 679 | |
| G117 | Study on Low-Temperature AlN Deposition and Enhancement of Thermal Conductivity via TMA/NH3-Based FM-CVD (2) Effect of Grain Size | AlN CVD 3DIC | ST-27 | 828 | |
| Break | |||||
| G119 | Fabrication and Evaluation of B- and Mo-Doped TiCN Films by DC Plasma CVD | DC plasma CVD TiSiCN | ST-27 | 943 | |
| G120 | [Invited lecture] Introduction of a case study of optimizing the thin-film deposition process using AI tools developed by TEL | AI tools ALD/CVD Process informatics | ST-27 | 211 | |
| G121 | [Invited lecture] From Property Measurement to AI-Based Property Prediction: New Developments in Thermodynamic Research | Thermodynamic Properties Machine Learning Phase Equilibria | ST-27 | 97 | |
| Hall G, Day 2 | |||||
| ST-29 [Trans-Division Symposium] Synergy between Reaction and Separation for Process Intensification | |||||
| (9:00–12:00) | |||||
| G201 | Application study of flow-type acetalization membrane reactions using carbon hollow fiber membranes | carbon membrane membrane reactor acetalization | ST-29 | 777 | |
| G202 | Thermal Management and Interaction in a Pd Membrane Reactor via 3D CFD: Coupled Endothermic NH3 Decomposition and Exothermic CO2 Methanation | Simulation MPBR Combined reaction | ST-29 | 618 | |
| G203 | Low-temperature Synthesis of Ammonia using an Atmospheric Pressure Plasma Membrane Reactor | Plasma ammonia synthesis Membrane reactor Atmospheric-pressure plasma | ST-29 | 2 | |
| G204 | Catalytic Conversion of CO2 to Lower Olefins for Sustainable Materials | Fisher-Tropsh Catalyst Process Development | ST-29 | 44 | |
| Break | |||||
| G206 | [Invited lecture] Findings from research on membrane reactors using zeolite membranes | Zeolite Membrane reactor Carbon dioxide | ST-29 | 17 | |
| G208 | [Invited lecture] Reaction Dynamics of Plasma-Driven CO2 Methanation: Insights from In Situ Diagnostics and Theoretical Simulation | plasma catalysis simulation methanation | ST-29 | 130 | |
| ST-27 [Trans-Division Symposium] CVD/ALD & Dry Process, Control of Structure and unction of material by reaction engineering | |||||
| (13:00–15:40) | |||||
| G213 | [Review lecture] Gas-Phase Nanostructuring of Fine Particles and Its Applications in Functional Materials | Spray process Nanostructured particle | ST-27 | 31 | |
| G215 | High-Throughput Synthesis of Catalysts Using Flame Synthesis | Flame spray pyrolysis High-Throughput Synthesis CO2 methanation | ST-27 | 346 | |
| G216 | Structural Control of ZnO Nanorods for Application to Perovskite Solar Cells | ZnO nanorods Hydrothermal growth Perovskite solar cells | ST-27 | 528 | |
| G217 | Synthesis of ZnO-TiO2-CNT Nanocomposites by the in-flight PECVD Method and Their Functional Evaluation | nanoparticle coating aerosol process gas sensor | ST-27 | 545 | |
| G218 | Effects of catalyst precursor heating and gas mixing on gas-phase synthesis of carbon nanotubes | carbon nanotube floating catalyst chemical vapor deposition computational fluid dynamics | ST-27 | 331 | |
| G219 | Influence of CeO2 as a promoter on Ni-Mo2C/MgO catalyst for production of syngas and CNTs | carbon nanotube carbon dioxide catalyst | ST-27 | 762 | |
| G220 | Development of a Direct Co-regeneration Method for LMO-NCM Mixed Cathodes in Lithium-Ion Batteries | Direct recycling Mixed cathode lithium-ion battery | ST-27 | 165 | |
| Hall G, Day 3 | |||||
| SY-60 [Symposium of Division of Separation Processes] (4) Integration of Membrane Engineering and Membrane Science toward Membrane Processes | |||||
| (9:00–10:20) | |||||
| G301 | Promotion of Monovalent Ion Transport Enabled by Fast Nanochannels for Efficient Electrodialysis | electrodialysis mono/multivalent ion separation nanochannel | SY-60 | 288 | |
| G302 | Precise Control of Charge-Structure Coupling in Polyamide Membranes for Mono- and Divalent Ion Separation | Zwitterionic copolymer grafting Interfacial polymerization Mono/divalent ion separation | SY-60 | 404 | |
| G303 | Extreme Ion Separation via Enhanced Steric Exclusion: Lithium Recovery from Spent LIBs Using a Single-pass NF Process | Spent LIBs Recycling Membrane Separation Ion Selectivity | SY-60 | 33 | |
| G304 | Self-Assembly Regulated Interfacial Polymerization for Organic Solvent Reverse Osmosis Membranes | Organic solvent reverse osmosis Interfacial polymerization Self-assembly | SY-60 | 244 | |
| Break | |||||
| (10:40–12:00) | |||||
| G306 | Concentration of aromatic compounds by osmotically assisted organic solvent reverse osmosis (OA-OSRO) incorporating a reflux process and the effects of operating conditions on concentration performance | Membrane Organic solvent Reverse osmosis | SY-60 | 695 | |
| G307 | Amine-Regulated Graphene Oxide Nanochannels for Polarity-Selective Organic Solvent Reverse Osmosis | organic solvent reverse osmosis graphene oxide membranes channel polarity | SY-60 | 256 | |
| G308 | Nanoporous Phenolic Membranes That Enable Rapid Gas Transport While Retaining Organic Vapor | phenolic nanomembrane gas/vapor separation organic vapor retention | SY-60 | 681 | |
| G309 | Pore Size Control and Organic Gas Permeation Properties in Porous TiO2-SiO2 Composite Membranes Using Organic Chelating Ligands (OCL) | Membrane Organic Chelating Ligands gas separation | SY-60 | 697 | |
| (13:00–14:40) | |||||
| G313 | Influence of Organic Chelating Ligand (OCL) Loading on the Pore Structure and Gas Permeation Properties of Porous TiO2-SiO2 Composite Membranes | MD gas separation ceramic | SY-60 | 818 | |
| G314 | Design for evaluating permeation property of He/CH4/N2 system at extremely low temperature by organosilica membrane with different pore sizes | Organosilica membranes Low temperatures Adsorption blocking | SY-60 | 119 | |
| G315 | Scale-Up of Amine-Containing Polymeric Membranes and Their Gas Separation Performance | CO2 capture facilitated transportation membrane module | SY-60 | 151 | |
| G316 | Permselective and adsorption properties of SSZ-13 membrane for water vapor | zeolite membrane SSZ-13 H2O permeation | SY-60 | 755 | |
| G317 | Quantification of Factors Contributing to Steam Permeance in Organosilica Membranes | Organosilica membrane Steam Vaper permeation | SY-60 | 657 | |
| Break | |||||
| (15:00–16:20) | |||||
| G319 | Permeation control through FAU zeolite membranes by using an ion exchange method | Ion exchange treatment FAU zeolite membrane Pervaporation | SY-60 | 530 | |
| G320 | Pervaporation concentration of organic solvent using organosilica membrane | Silica membrane Pervaporation Concentration process | SY-60 | 330 | |
| G321 | Development of ionic liquid-bridged silsesquioxane membrane and its pervaporation properties | ionic liquid membrane organic-inorganic hybrid membrane pervaporation | SY-60 | 889 | |
| G322 | Organic chelating ligands-induced microstructure engineering of carbon-SiO2-ZrO2 membranes for efficient methanol pervaporation recovery | Carbon-SiO2-ZrO2 Pervaporation MeOH recovery | SY-60 | 321 | |
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SCEJ 57th Autumn Meeting (Higashihiroshima, 2026)
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