
Last modified: 2026-07-16 06:38:20
In this symposium, we call for lectures on innovative "conversion, storage and utilization" technology of material and energy, such as electrolytic synthesis, electrodeposition, electrolysis, fuel cell, secondary battery, solar cell, flow battery. We accept lectures widely from the view point of nano-scaled material development as well as energy system development and design. Furthermore, we plan to discuss about the contribution of chemical engineering to these technologies.
Hall T for Day 1 and Day 2. Hall H for Day 3.
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
|---|---|---|---|---|---|
| Hall T, Day 1 | |||||
| (10:20–11:00) | |||||
| T105 | Study on Tailoring Fischer-Tropsch Product Distribution via Spatially Decoupled CoFe@CNT/Al2O3 Catalysts | Fischer-Tropsch Synthesis Spatially Decoupled Catalyst Product Distribution | ST-23 | 716 | |
| T106 | Design and operational optimization of a vinyl acetate monomer production process with a solar heat supply system | Vinyl acetate monomer Design and operational optimization Solar heat supply system | ST-23 | 328 | |
| (11:00–12:00) | |||||
| T107 | Feasibility Study on Energy Supply Chain in Case of Installation of Large-Scale Photovoltaics in Deserted Arable Land in Tokai Region | Energy Supply Chain Solar-Hydrogen Deserted Arable Land | ST-23 | 597 | |
| T108 | Enhancing the ORR catalytic properties of high-active-site-density Fe-N-C catalysts via microwave heating | fuel cell microwave heating metal-organic frameworks | ST-23 | 645 | |
| T109 | [The Outstanding Paper Award] Assessment on the Strength Improvement of SOFC Anode-Supported Cells Using Y-TZP | SOFC steam electrolysis YSZ | ST-23 | 958 | |
| (13:00–14:20) | |||||
| T113 | [Invited lecture] Research on carbon-negative technologies purifying the air the more you drive | ST-23 | 976 | ||
| T116 | Reduction of computational load of the 1+1D model in FC-DynaMo by using surrogate model | FC-DynaMo convergence calculation simulation | ST-23 | 332 | |
| (14:20–15:20) | |||||
| T117 | Operando Analysis of Water Electrolysis Using Quantum Beam Techniques (1) Neutron Imaging Analysis of Water Distribution in PTL of Long-Cell Electrolyzer | neutron imaging water electrolyzer | ST-23 | 768 | |
| T118 | Operando Analysis of Water Electrolysis Using Quantum Beam Techniques(2) Visualization of Water and Gas Distributions by Synchrotron X-ray CT | Water electrolyzer X-ray CT Porous material | ST-23 | 769 | |
| T119 | Operando analysis of water transport in polymer electrolyte fuel cells(11) Liquid water transport by cross-flow evaluated by time-resolved X-ray computed tomography | Polymer electrolyte fuel cells Cross-flow Operando computed tomography | ST-23 | 774 | |
| (15:20–16:00) | |||||
| T120 | Analysis and prediction of cell characteristics of polymer electrolyte fuel cell using topological features | Polymer electrolyte fuel cell Persistent homology Machine learning | ST-23 | 560 | |
| T121 | Theoretical Study on Ionomer-Pt/C Interfacial Interactions and Mass Transport Mechanism in Porous Carbon Supports | Polymer electrolyte fuel cell ionomer-catalyst interface mass transport | ST-23 | 543 | |
| (16:00–17:00) | |||||
| T122 | Estimation of In-Membrane pH for Chemical Degradation Simulation of Fuel Cell Polymer Membranes | Fuel Cell Polymer Membrane Fenton Reaction | ST-23 | 820 | |
| T123 | Non-destructive degradation monitoring and adaptive control of PEFC systems | Fuel Cell Degradation Monitoring Adaptive Control | ST-23 | 327 | |
| T124 | Estimation of Gas Permeation Parameters of PFSA Membranes Using a Pretrained Model and Exploration of Experimental Conditions Suitable for Transfer Learning | polymer electrolyte fuel cell proton exchange membrane transfer learning | ST-23 | 673 | |
| Hall T, Day 2 | |||||
| (9:20–10:40) | |||||
| T202 | Coupled Multiscale Modeling of All-Solid-State Battery Electrodes Considering Active Material Morphology | All-Solid-State Batteries Multiscale Modeling Particle Morphology | ST-23 | 541 | |
| T203 | Environmentally friendly direct regeneration of graphite anodes from spent lithium-ion batteries | Li-ion battery direct recycling graphite anode | ST-23 | 144 | |
| T204 | Developing of the operational simulation for optimizing equipment capacity in the hydrogen gas supply system with an on-site renewable energy | Hydrogen Energy management Renewable energy | ST-23 | 225 | |
| T205 | Investigation of Hydrogen Gas Sensing Properties Using Ru/CNT Paper | CNT Gas sensor | ST-23 | 783 | |
| (10:40–12:00) | |||||
| T206 | Charge-discharge characteristics of carbon-air secondary battery Type 2 using Ni/GDC fuel electrodes with different microstructures | Direct carbon fuel cell CO2 electrolysis solid oxide fuel cell | ST-23 | 309 | |
| T207 | [Invited lecture] Hydrogen Production Technologies for Achieving Carbon Neutrality and Practical Solutions for Hydrogen Utilization | ST-23 | 977 | ||
| Hall H, Day 3 | |||||
| (9:20–10:40) | |||||
| H302 | Water-Starvation Behavior and High Water Utilization Limits in PEM Water Electrolysis Cells | PEM water electrolysis Water starvation Local failure | ST-23 | 41 | |
| H303 | Simulation of a PEM water electrolysis system, considering the BoP | Balance of plant PEM water electrolysis system | ST-23 | 329 | |
| H304 | Nitrate-to-Ammonia Conversion Using Isolated Cu Species Confined within the Interlayer Space of Layered Manganese Dioxide | Nitrate Reduction Reaction Ammonia Synthesis Single-Ion Catalyst | ST-23 | 595 | |
| H305 | Integrated Electrode-to-System Design of a Protonic Ceramic Electrochemical Reactor for Ammonia Cracking | Hydrogen production Microkinetics Hydrogen carrier | ST-23 | 853 | |
| (10:40–12:00) | |||||
| H306 | Intermediate-Temperature Electrochemical Ammonia Synthesis Using Fe/BZY Cathode Catalysts | Ammonia Electrolysis Intermediate temperature | ST-23 | 663 | |
| H307 | [Invited lecture] Implementation of Water Electrolysis Systems for Decarbonization and Future Perspectives | Hydrogen Production PEM Water Electrolysis | ST-23 | 357 | |
| (13:00–14:20) | |||||
| H313 | Electrochemical CO2 Enrichment System | CO2 Enrichment Electrochemistry Gas Absorption System | ST-23 | 804 | |
| H314 | Bioelectromethanation from Carbon Dioxide under Potential Control | Methanation CO2 Electrolysis | ST-23 | 385 | |
| H315 | Effect of Spray-Coating Parameters on Catalyst Layer Structure and Product Selectivity in CO2 Reduction | CO2 reduction reaction Gas Diffusion Electrode Spray coating | ST-23 | 435 | |
| H316 | Control of CO2 Reduction Selectivity through the Design of Cu Catalysts and Electrode Structures | CO2 reduction Gas diffusion electrode Product selectivity | ST-23 | 606 | |
| (14:20–15:40) | |||||
| H317 | Reaction Pathway Branching in CO2 electroreduction on Cu-Zn Electrodes Governed by Substrate-Induced Morphology | CO2 electroreduction Surface morphology Cu-Zn electrode | ST-23 | 376 | |
| H318 | Effects of Cathode Interfacial Cation Species on CO2 Reduction in a Polymer Electrolyte Membrane Electrolyzer | CO2 electrolysis Polymer electrolyte membrane electrolyzer Electric double layer | ST-23 | 106 | |
| H319 | CO2/CO Reduction to Multicarbon Products at Ampere-Level Current Densities | CO2 electrolysis Ampere-Level Current Density C-C Bond Formation | ST-23 | 179 | |
| H320 | Elucidation of the cooperative effect between intrinsic carbon defects and N species for electrochemical CO2 reduction and development of highly efficient metal-free carbon electrocatalyst | electrochemical CO2 reduction metal-free carbon catalyst synergistic effect between intrinsic carbon defect and N dopant | ST-23 | 325 | |
| (15:40–16:40) | |||||
| H321 | Effect of layered structure of cubic Cu nanoparticles on electrochemical CO2 reduction | Electrochemical CO2 reduction Cu nanoparticles layered structure | ST-23 | 296 | |
| H322 | Process simulation and performance assessment of an integrated power-to-liquid plant with direct air capture | Carbon recycling Process simulation Co-electrolysis | ST-23 | 732 | |
| H323 | Integrated CO2 capture and reduction into C2+ hydrocarbons using FeCoK-based dual function materials | CO2 capture CO2 utilization C2+ hydrocarbon | ST-23 | 265 | |
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SCEJ 57th Autumn Meeting (Higashihiroshima, 2026)
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