10th Tokyo Conference on Advanced Catalytic Science and Technology (TOCAT 10)
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Session Details

Poster PresentationGeneral session : Electrocatalysis

[EL]Electrocatalysis

Fri. Aug 21, 2026 6:30 PM - 8:00 PM JST
Fri. Aug 21, 2026 9:30 AM - 11:00 AM UTC
PS3(International Confference Hall)

[EL-01]Superwetting Surface Enables Highly Efficient Electrocatalytic Water Splitting

*Chunxia Wang1, Zeyang Liu1 (1. China University of PEtroleum (Beijing) (China))
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[EL-02]Exploring Catalysts in PEM Water Electrolysis via High-Throughput Experiment and Machine Learning

*Tomoya Tashiro1, Fernando Garcia Escobar1, Lauren Takahashi1, Keisuke Takahashi1 (1. Hokkaido University (Japan))
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[EL-03]Active and Durable Proton Exchange Membrane Water Electrolyzer Anode with Spatially Positioned Catalytic Components

*Yu Wei Hsu1, Hsiang I Chang1, Yun Ting (Frank) Pan1 (1. National Tsing Hua University (Taiwan))
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[EL-04]The Structure Transformation of Electrocatalysts in Anodic Oxidation Reaction

*Di-Yan Wang1 (1. National Taiwan Normal University (Taiwan))
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[EL-05]Tuning CO/H2 Selectivity in Acidic CO2 Electrolysis using Ni–Co–Coordinated Nitrogen-Doped Carbon

*Yuta Takaoka1, JunTae Song1,2, Motonori Watanabe1,2, Miki Inada1,2, Tatsumi Ishihara1,2 (1. Kyushu Univ. (Japan), 2. I2CNER (Japan))
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[EL-06]Multifunctional Electrodes for Affordable Hydrogen via Electrochemical Biomass Upgrade: Beyond Water Electrolysis

*Bezawit Zerihun Desalegn1 (1. Hanyang University (Korea))
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[EL-07]Enhanced Electrocatalytic Ammonia Oxidation Using Nano Nickel-Copper Hydroxide Catalysts

*Jinquan Wang1 (1. A*STAR Institute of Sustainability for Chemicals, Energy and Environment (Singapore))
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[EL-08]Effect of Surface-Adsorbed Phosphate Species on Layered Double Hydroxide Catalysts in CO2 Electroreduction

*Satsuki Tomatsu1, Kazuto Hatakeyama1, Shintaro Ida1 (1. Kumamoto University (Japan))
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[EL-09]Cu Based Catalysts on the ANA Zeolite for the Highly Efficient MOR

Mingliang Wu1, Zhongsen Wang1, Xin Liu1, Xiyuan Tong1, Zhuozhe Li1, Yifeng E1, *Kun Qian1 (1. Jinzhou Medical University (China))
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[EL-10]Influence of Ionomer Nanostructure on the Oxygen Reduction Reaction

*Jeroen Homan1,2, Linge Dicke1,2, Matteo Scolari1, Wiel Evers2, Wim Bouwman2, Atsushi Urakawa2 (1. Cellcentric GmbH & Co. KG (Germany), 2. Delft University of Technology (Netherlands))
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[EL-11]Mitigating Sulfonate Group Adsorption on Pt using Air-treated Acetylene Black Support for Polymer Electrolyte Membrane Fuel Cells

Youngin Cho1, Sangyeup Park1, Sungmin Kim2, Yun Sik Kang2, Sung-Dae Yim2, *Chanho Pak1 (1. Department of Chemistry and Graduate School of Energy Convergence, Gwangju Institute of Science and Technology (Korea), 2. Fuel Cell Laboratory, Korea Institute of Energy Research (Korea))
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[EL-12]Vibrational Spectroscopy at Electrified Interfaces: Electrochemical CO2 Reaction

*Heng-Liang Wu1 (1. National Taiwan University (Taiwan))
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[EL-13]Pt Catalysts Supported on Zeolitic Imidazolate Frameworks Treated at High Temperatures for ORR

*Maho Matsuda1, Sakae Takenaka1 (1. Doshisha University (Japan))
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[EL-14]MnxOy-Na2WO4 Catalyst for Oxidative Coupling of Methane Reaction and Its Electrochemical Application

Hsuan Hao Yi1, *Andrew C. Chien1 (1. Feng Chia University (Taiwan))
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[EL-15]Pt Island Shell on the Concave PdCu Nanocubes as Glucose Oxidation Electrocatalysts and Sensors

Pei-Jung Tsai1, Yu-Cian Ding1, Po-Yu Chen2, *Chien-Liang Lee1 (1. National Kaohsiung University of Science and Technology (Taiwan), 2. Kaohsiung Medical University (Taiwan))
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[EL-16]Enhanced ORR and HER Performance of Cobalt Complex Catalysts with Fourteen-Membered Macrocyclic Ligands

*Zhiqing Feng1, Soutaro Honda1, Keisuke Awaya1, Masato Machida1, Makoto Moriya2, Yuta Nabae3, Junya Ohyama1 (1. Kumamoto Univ. (Japan), 2. Shizuoka Univ. (Japan), 3. Science Tokyo (Japan))
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[EL-17]Electrochemical N-Methylation Reaction of Nitrogen-Containing Compounds using Formaldehyde as a Carbon Source

*Eisei Yokota1, Soichi Kikkawa1, Hideyuki Kawasoko1, Seiji Yamazoe1 (1. Tokyo Metropolitan University (Japan))
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[EL-18]Advancing Electrocatalysis through In-situ XAFS Characterization: Insights from the National Synchrotron Radiation Research Center

*Chih Wen Pao1 (1. National Synchrotron Radiation Research Center (Taiwan))
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[EL-19]Hollow Carbon Spheres Incorporating Ag Nanoparticles and Aminopolymers for Electrochemical CO2 Reduction

*Yuma Terada1, Kaining Li1, Yasutaka Kuwahara1 (1. Division of Materials and Manufacturing Science, Graduate School of Engineering, The University of Osaka (Japan))
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[EL-20]Synergistic Performance of Fe-SAC/Ni-NP@NC in Electrochemical NH3 Production through Nitrate Reduction

*GAOJUN JIANG1 (1. Hanyang university (Korea))
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[EL-21]Influence of Buffer Species on the Electrodeposition of NiMoOx Catalyst for Hydrogen Evolution Reaction

*Tianqi Li1, Takahiro Naito1, Hiroshi Yamada1, Katsutoshi Sato1, Katsutoshi Nagaoka1 (1. Nagoya University (Japan))
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[EL-22]Enhancing Copper Migration and Bisphenol A Removal in a Sediment-Based Bioelectro-Fenton System Using nZVI/Cu–Biochar Composite

*Chi-Wen Lin1, Bo-Cheng Yu1, Yi-Kai Yang1 (1. National Yunlin University of Science and Technology (Taiwan))
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[EL-23]Enhancing Bisphenol A Removal and Power Generation in Bioelectro-Fenton Systems Through the Optimization of Fe/Mn Bimetallic Catalysts

*Shu-Hui Liu1, Wei-Tzu Huang2, Wei-Jun Lai2, Zhi-Xian Zheng1 (1. Department of Safety, Health and Environmental Engineering, National Yunlin University of Science and Technology (Taiwan), 2. Graduate School of Engineering Science and Technology, National Yunlin University of Science and Technology (Taiwan))
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[EL-24]Design of Ni-Based Anodes on Hydrogen Oxidation and Methane Dry Reforming in Solid Oxide Fuel Cells

*Hideto Nakaji1, Shunsuke Ogata1, Shohei Tada1, Ryuji Kikuchi1 (1. Hokkaido University (Japan))
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[EL-25]Nickel-Modified Copper Electrocatalysts Derived from Cu(OH)2 Nanowires via Cation Exchange for Nitrate Reduction to Ammonia

*Rizki Marcony Surya1, Yuto Shimoyama1, Fumiaki Amano1 (1. Tokyo Metropolitan University (Japan))
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[EL-26]SiC Photocathode for Photoelectrochemical CO2 Reduction

*Yoshiki Fujimoto1, JunTae Song1,2, Motonori Watanabe1,2, Miki Inada1,2, Tatsumi Ishihara1,2 (1. Kyushu Univ. (Japan), 2. I2CNER (Japan))
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[EL-27]Improving the Efficiency of Oxygen Evolution Reaction in Seawater Electrolysis Using Sulfur-Containing Schiff Base Chelated Iron–Tin Oxides

*Tzu-Hsuan Chiang1, Jun-Wei Zhang2, Hsing-Ya Li Li2, Ming-Shen Chiou Chiou2 (1. National Central Univ. (Taiwan), 2. National United Univ. (Taiwan))
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[EL-28]MIP-Based Electrochemical Sensors Integrated with Advanced Nanocatalysts for Highly Sensitive and Selective Detection of 5-Heneicosylresorcinol in Whole Wheat Foods

*Yangyang Wen1, Hongyan Li2, Wang Wang2 (1. School of Light Industry Science and Engineering, Beijing Technology and Business University (China), 2. Key Laboratory of Geriatric Nutrition and Health, Ministry of Education, Beijing Technology and Business University (China))
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[EL-29]Electrochemical Oxidation of Styrene to Benzaldehyde Using a Membrane Electrode Assembly System

Aoi Kambayashi1, *Hatsune Nakazawa1, Hideki Kurokawa1, Takaaki Suzuki1, Hitoshi Ogihara1 (1. Saitama University, Grduate School of Science and Engineering, Material Science (Japan))
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[EL-30]Interface-Engineered Amorphous Rare-Earth Oxide-NiO Unlocks Selective Biomass-Ammonia C–N Coupling for Sustainable Formamide Electrosynthesis

*Jiang Shao1, Ya-Wen Zhang2 (1. College of Chemistry and Molecular Engineering, Peking University (China), 2. Wuhan Institute of Technology (China))
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[EL-31]A First-Principles Calculation of the Electrochemical Surface State of Iridium Oxide IrO2(110) Under Oxygen Evolution Reaction Conditions

*Ryan L. Arevalo1, Jessiel Siaron Gueriba2, Hiroshi Nakanishi2 (1. School of Innovation and Sustainability, De La Salle University (Philippines), 2. 2Center for Quantum Information and Quantum Biology (QIQB), The University of Osaka (Japan))
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