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SCEJ 57th Autumn Meeting (Higashihiroshima, 2026)

Last modified: 2026-07-16 06:38:20

Hall and day program : Hall H, Day 3

The chairs are under negotiation.
Yellow-backs on Technical sessions denote the Hybrid sessions.
(All other sessions are on-site only sessions).

Hall H(K2F K211), Day 3(Sep. 16)

Hall T for Day 1 and Day 2. Hall H for Day 3.

ST-23

TimePaper
ID
Title / AuthorsKeywordsTopic codeAck.
number
ST-23 [Trans-Division Symposium]
Contribution of Chemical Engineering to Innovative "Conversion, Storageand Utilization" Technology of Materialand Energy
(9:20–10:40)
9:209:40H302Water-Starvation Behavior and High Water Utilization Limits in PEM Water Electrolysis Cells
(CRIEPI) (Cor)Kobayashi S.
PEM water electrolysis
Water starvation
Local failure
ST-2341
9:4010:00H303Simulation of a PEM water electrolysis system, considering the BoP
(TUAT) *(Stu)Yagi Haruna, (Reg)Kim Sanghong
Balance of plant
PEM water electrolysis system
ST-23329
10:0010:20H304Nitrate-to-Ammonia Conversion Using Isolated Cu Species Confined within the Interlayer Space of Layered Manganese Dioxide
(Yamaguchi U.) *(Reg·PCE)Yoshida Wataru, Nakayama Masaharu
Nitrate Reduction Reaction
Ammonia Synthesis
Single-Ion Catalyst
ST-23595
10:2010:40H305Integrated Electrode-to-System Design of a Protonic Ceramic Electrochemical Reactor for Ammonia Cracking
(Science Tokyo) *(Int)Li Chien-I, (Int)Ortiz-Corrales Julian Andres, Otomo Shiho, (Reg)Watanabe Konosuke, (Reg)Otomo Junichiro
Hydrogen production
Microkinetics
Hydrogen carrier
ST-23853
(10:40–12:00)
10:4011:00H306Intermediate-Temperature Electrochemical Ammonia Synthesis Using Fe/BZY Cathode Catalysts
(Hokkaido U.) *(Reg)Tada Shohei, Nakashima Yamato, Hatazawa Shion, (JASRI) Honma Tetsuo, (Hokkaido U.) (Reg)Kikuchi Ryuji
Ammonia
Electrolysis
Intermediate temperature
ST-23663
11:0012:00H307[Invited lecture] Implementation of Water Electrolysis Systems for Decarbonization and Future Perspectives
(Kobelco Eco-Solutions) (Cor)Nakanishi Tetsuro
Hydrogen Production
PEM Water Electrolysis
ST-23357
(13:00–14:20)
13:0013:20H313Electrochemical CO2 Enrichment System
(Chiyoda) *(Cor)Takabatake Moe, (Reg)Matsumoto Jun, (Reg·PCE)Takeda Dai
CO2 Enrichment
Electrochemistry
Gas Absorption System
ST-23804
13:2013:40H314Bioelectromethanation from Carbon Dioxide under Potential Control
(Tohoku U.) *(Stu)Nakanishi Taiyo, (Reg)Nakayasu Yuta, Umetsu Masaki, (Takuma) (Cor)Ito Ryusei, (Cor)Yokoi Tomoka, (Cor)Nagira Ayano, (Tohoku U.) (Reg)Watanabe Masaru, Tada Chika
Methanation
CO2
Electrolysis
ST-23385
13:4014:00H315Effect of Spray-Coating Parameters on Catalyst Layer Structure and Product Selectivity in CO2 Reduction
(Tohoku U.) *(Stu)Kuwano Taiki, (Reg)Iwase Kazuyuki, (Reg)Tomai Takaaki
CO2 reduction reaction
Gas Diffusion Electrode
Spray coating
ST-23435
14:0014:20H316Control of CO2 Reduction Selectivity through the Design of Cu Catalysts and Electrode Structures
(Tohoku U.) *(Reg)Iwase Kazuyuki, Hirano Tomo, Yamada Takuya, Honma Itaru, (Reg)Tomai Takaaki
CO2 reduction
Gas diffusion electrode
Product selectivity
ST-23606
(14:20–15:40)
14:2014:40H317Reaction Pathway Branching in CO2 electroreduction on Cu-Zn Electrodes Governed by Substrate-Induced Morphology
(Fukuoka U.) Yoshikawa Takanobu, *(Reg)Yoshihara Naoki, (Reg)Noda Masaru
CO2 electroreduction
Surface morphology
Cu-Zn electrode
ST-23376
14:4015:00H318Effects of Cathode Interfacial Cation Species on CO2 Reduction in a Polymer Electrolyte Membrane Electrolyzer
(UOsaka) Kato Shintaro, Kurihara Ryo, Ueda Soichiro, Nakahata Shoko, Harada Takashi, Nakanishi Shuji, *(Reg)Kamiya Kazuhide
CO2 electrolysis
Polymer electrolyte membrane electrolyzer
Electric double layer
ST-23106
15:0015:20H319CO2/CO Reduction to Multicarbon Products at Ampere-Level Current Densities
(UOsaka) *(Stu)Nakasone Sora, Isayama Kazuya, Inoue Asato, Kurihara Ryo, Harada Takashi, (AIST) (Reg)Hara Nobuo, (Reg)Taniguchi Satoshi, (Reg)Kataoka Sho, (UOsaka) Nakanishi Shuji, (Reg)Kamiya Kazuhide
CO2 electrolysis
Ampere-Level Current Density
C-C Bond Formation
ST-23179
15:2015:40H320Elucidation of the cooperative effect between intrinsic carbon defects and N species for electrochemical CO2 reduction and development of highly efficient metal-free carbon electrocatalyst
(U. Osaka) *(Stu)Takada Ryuji, (Reg)Miyake Koji, (Reg)Uchida Yoshiaki, (Reg)Nishiyama Norikazu
electrochemical CO2 reduction
metal-free carbon catalyst
synergistic effect between intrinsic carbon defect and N dopant
ST-23325
(15:40–16:40)
15:4016:00H321Effect of layered structure of cubic Cu nanoparticles on electrochemical CO2 reduction
(Kagoshima U.) Kataoka Souma, Kakunaka Daisuke, *(Reg)Tamaki Takanori
Electrochemical CO2 reduction
Cu nanoparticles
layered structure
ST-23296
16:0016:20H322Process simulation and performance assessment of an integrated power-to-liquid plant with direct air capture
(AIST) *(Reg)Kuo Po-Chih, Tanaka Yohei, Takada Naoki
Carbon recycling
Process simulation
Co-electrolysis
ST-23732
16:2016:40H323Integrated CO2 capture and reduction into C2+ hydrocarbons using FeCoK-based dual function materials
(AIST) *(Reg)Kosaka Fumihiko, (Reg)Liu Yanyong, (Reg)Sasayama Tomone, (Reg)Ono Yuya, (Reg)Miyazaki Shinta, (TU Delft) Urakawa Atsushi, (AIST) (Reg)Kuramoto Koji
CO2 capture
CO2 utilization
C2+ hydrocarbon
ST-23265

Technical program
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SCEJ 57th Autumn Meeting (Higashihiroshima, 2026)


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