[PC] Photocatalysis | 10th Tokyo Conference on Advanced Catalytic Science and Technology (TOCAT 10)

Session Details

Poster PresentationGeneral session : Photocatalysis

[PC]Photocatalysis

Wed. Aug 19, 2026 6:30 PM - 8:00 PM JST
Wed. Aug 19, 2026 9:30 AM - 11:00 AM UTC

PS1(International Confference Hall)

[PC-01]Visible-Light-Driven Hydrogen Evolution Utilizing Interlayer Reaction Sites in Layered Oxysulfide Photocatalysts

*Chisato Hanafusa¹, Yusuke Ishii¹, Hajime Suzuki^1,2, Osamu Tomita¹, Akinobu Nakada¹, Ryu Abe¹ (1. Kyoto Univ. (Japan), 2. PRESTO/JST (Japan))

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[PC-02]Highly Efficient Photocatalytic Overall Water Splitting over Tantalum-Based Defect Pyrochlore Nanocrystals

*Yu-Huan Lu¹, Xin-Yi Lin¹, Chun-Cheng Tu¹, Li-Fen Chiang¹, Yen-Chun Lin¹, Chia-Min Yang¹ (1. Natl. Tsing Hua Univ. (Taiwan))

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[PC-03]A Highly Transparent [V^V/IVW₁₂O₄₀]^3–/4– Polyoxometalate as an Effective Electron Mediator for Visible-Light-Driven Z-Scheme Water Splitting

*Harutaka Ninomiya¹, Sohta Akashi¹, Osamu Tomita¹, Hajime Suzuki^1,2, Akinobu Nakada¹, Shunsuke Nozawa³, Ryu Abe¹ (1. Kyoto Univ. (Japan), 2. PRESTO (Japan), 3. KEK (Japan))

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[PC-04]Effective Preparation Conditions of CaIn₂O₄ Photocatalysts toward the Overall H₂O Splitting

*Junki Ito¹, Akira Yamakata², Yoshihisa Sakata¹ (1. Yamaguchi University (Japan), 2. Okayama University (Japan))

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[PC-05]A Novel Layered Oxysulfide Photocatalyst with a Ruddlesden-Popper Intergrowth Structure: Na₂Nd₄Ti₄O₁₁S₄

*Hiroki Tsuchida¹, Yusuke Ishii¹, Hajime Suzuki^1,2, Osamu Tomita¹, Akinobu Nakada¹, Ryu Abe¹ (1. Kyoto University (Japan), 2. Japan Science and Technology Agency (Japan))

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[PC-06]The Additive Effects of Hydroxy Acid on the Synthesis and Photocatalytic Property of Pb-Ti Oxyfluoride

*Hiroto Ueki¹, Gentoku Kido¹, Megumi Okazaki¹, Fumitaka Ishiwari², Akinori Saeki³, Kazuhiko Maeda¹ (1. Institute of Science Tokyo (Japan), 2. Tokyo Metropolitan Univerity (Japan), 3. The University of Osaka (Japan))

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[PC-07]Effects of the Preparation Conditions of Sr₅Nb₄O₁₅ Photocatalysts prepared to the Photocatalytic Performance of the Overall H₂O Splitting

*Yujin Yamada¹, Masaaki Yoshida¹, Shinya Higashimoto², Akira Yamakata³, Yoshihisa Sakata¹ (1. Yamaguchi University (Japan), 2. Osaka Institute of Technology (Japan), 3. Okayama University (Japan))

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[PC-08]Co-catalytic Function of AlB₂ in Photocatalytic Water-Splitting Reactions

*Ryuichi Yamaguchi¹, Atsushi Anzai¹, Shoma Matsubara¹, Shota Tsunewaki¹, Naoki Tarutani¹, Kiyofumi Katagiri¹, Kei inumaru¹ (1. Hiroshima University (Japan))

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[PC-09]Photoelectrochemical Splitting of Pure Water by Porous WO₃ Electrodes using a Proton Exchange Membrane Photoelectrolyzer

*Keisuke Tsushiro¹, Fumiaki Amano¹ (1. Tokyo Metropolitan University (Japan))

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[PC-10]Photoelectrochemical Tandem Halogenation of sp³ C–H Bonds in Two-Phase Electrolyte Systems

*Sang Youn Chae¹, Adeel Mehmood¹, Eun Duck Park¹ (1. Ajou University (Korea))

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[PC-11]Photoelectrochemical Performance of Plasma Treated Fe₂O₃ Electrode

*Shin Kajita¹, Zeng Yalong¹, Debashrita Sarkar², Anja Bieberle-Hütter² (1. The University of Tokyo (Japan), 2. Dutch Institute for Fundamental Energy Research (DIFFER) (Netherlands))

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[PC-12]α/γ-Mixed-Phase Ga₂O₃ as a Photocatalyst for CO₂ Reduction with Water

Muneaki Yamamoto¹, Naoto Ota², Tetsuo Tanabe¹, *Tomoko Yoshida¹ (1. Nagoya University (Japan), 2. Osaka Metropolitan University (Japan))

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[PC-13]Effect of Bimetallic Cocatalysts on Photocatalytic Activity of Ga₂O₃ for CO₂ Reduction Reaction

*Hidehisa Hagiwara¹, Fuki Yoshimoto¹, Mitsuhiro Inoue¹, Takayuki Abe¹ (1. University of Toyama (Japan))

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[PC-14]Water Radio-catalysis for Selective Aqueous-Phase Methane Carboxylation with Carbon Dioxide into Acetic Acid at Room Temperature

*Xiao Sun¹ (1. University of Science and Technology of China (China))

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[PC-15]Time-Separated Photocatalytic Hydrogenation of Aromatic Nitro Compounds Driven by Electrons Accumulated in Cerium(IV) Oxide

*Yue Wang¹, Naoya Murakami¹ (1. Kyushu Institute of Technology (Japan))

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[PC-16]Photocatalytic Reduction of Nitrobenzene to Aniline Over Pt/BiVO₄ Under Visible Light

*Kotomi Maruyama¹, Manami Hara¹, Ayumu Onda¹, Kazuya Imamura¹ (1. Kochi University (Japan))

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[PC-17]TiO₂@TiP₂O₇ Core-shell Heterojunctions for Efficient and Selective Photocatalytic CH₄ Oxidation to Nearly 100% C₁ Liquid Oxygenates

*Yuxuan Zhan¹, Xiao Sun¹, Weixin Huang¹ (1. University of Science and Technology of China (China))

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[PC-18]Photosynthesis of Hydrogen Peroxide from Molecular Oxygen using Ru Complexes Encapsulated in Y-type Zeolite

*Syuhei Yamaguchi¹, Takuma Hashimoto¹, Masaya Takahashi¹, Hidenori Yahiro¹ (1. Ehime University (Japan))

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[PC-19]Development of Chiral Dinuclear Iridium Photocatalysts

*Akiko Inagaki¹, Salmahaminati --², Minori Abe³ (1. Seikei University (Japan), 2. Islamic University of Indonesia (Indonesia), 3. Tokyo University of Agriculture and Technology (Japan))

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[PC-20]Next generation of Photocatalytic Ceramic Nanofiltration Membranes

*Marzio Saccinto Marzio¹, Marie-Alix Pizzoccaro-Zilamy^1,2, Arian Nijmeijer¹, Guido Mul¹ (1. Department of Chemical Engineering, University of Twente (Netherlands), 2. Institute of Materials Energy and Devices (IMD2) (Germany))

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[PC-21]Illuminating PFAS Adsorption and Possible Degradation Pathways Through in situ Spectroscopic Analysis

*Charlotte Jüngen¹, Atsushi Urakawa¹ (1. Catalysis Engineering, Delft University of Technology (Netherlands))

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[PC-22]Photoactivation of Cu/CeTiO_2−x Catalyst for Acceleration of the RWGS Reaction

Miha Okorn^1,2, Kristijan Lorber¹, Matjaž Mazaj¹, Nataša Novak Tušar^1,2, *Petar Djinovic^1,2 (1. National Institute of Chemistry (Slovenia), 2. University of Nova Gorica (Slovenia))

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[PC-23]MOF-Derived Tungsten-Doped MnOx@Carbon with Rich Oxygen Vacancies for Enhanced Solar-Driven Photothermal Formaldehyde Oxidation

Yu-Yi Lin¹, Masaaki Yoshida², *Chechia Hu Hu¹ (1. National Taiwan University of Science and Technology (Taiwan), 2. Yamaguchi University (Japan))

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[PC-24]Visible Light Illumination Prevents Carbon Growth During DRM Reaction

*Kristijan Lorber¹, Petar Djinović^1,2 (1. National Institute of Chemistry (Slovenia), 2. University of Nova Gorica (Slovenia))

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[PC-25]Visible-light Acceleration of Ammonia Decomposition Over xNi-CeO₂ Catalyst

*Miha Okorn^1,2, Petar Djinović^1,2 (1. National Institute of Chemistry Slovenia (Slovenia), 2. University of Nova Gorica (Slovenia))

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[PC-26]Abrasion-Resistant Chitosan-Based TiO₂ Spheres for Enhanced VOC Degradation in a Photocatalytic Fluidized Bed

Ming-Wei Chen¹, Wei-Lun Huang¹, Yu-Ting Huang¹, *Chao-Wei Huang¹ (1. National Cheng Kung University (Taiwan))

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[PC-27]Charge Carrier Dynamics Governed by Schottky Barrier Engineeringin Pt-Modified TiO₂

*Gregor Žerjav¹, Albin Pintar¹ (1. National Institute of Chemistry (Slovenia))

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[PC-28]Skip

[PC-29]Fabrication and Modification of WO₃Nanostructure Photoanode by HWCVD for Photoelectrochemical Water Splitting

*Siteng Lin¹, Quan Shi¹, Qi Xue¹, Yuki Hayashi¹, Shin Kajita¹ (1. The University of Tokyo (Japan))

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[PC-30]Plasmonic Copper Catalysts for Acceptorless Dehydrogenation Reactions and Fine Chemical Synthesis

*Zachary Warren¹, Simon Freakley¹ (1. University of Bath (UK))

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[PC-31]Photocatalytic Oxidative Coupling of Methane over Hghly Dispersed Au Nanoparticles on TiO₂

*Preetam DASH¹, Hisao YOSHIDA¹ (1. Graduate school of Human and environmental studies, Kyoto university (Japan))

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[PC-32]Gold Loaded Potassium Titanate Photocatalyst for Oxidative Coupling of Methane

*Yuan Zhong¹, Preetam Dash¹, Hisao Yoshida¹ (1. Kyoto University (Japan))

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[PC-33]Photoreduction of Carbon Dioxide via Engineered TiO₂−Bi₂WO₆ Composites: Correlating Crystallinity, Defects, and Activity

*I-Hsiang Tseng¹, Pin-Yi Wu¹, Wei-Jen Wang¹, Po-Ya Chang² (1. Feng Chia Univ. (Taiwan), 2. National Synchrotron Radiation Research Center (Taiwan))

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[PC-34]Removal of Dyes and Antibiotics in the Environment by Using Magnetic Fe₃O₄/CQDs-ZnO Photocatalyst

*Suwat NANAN NANAN¹ (1. Khon Kaen University (Thailand))

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[PC-35]Methanol Reforming into C₂ Compounds Selected by Co-Catalyst in Photocatalytic H₂ Evolution Systems

Van-Can Nguyen¹, *Hsisheng Teng^1,2 (1. Chemical Engineering, National Cheng Kung University (Taiwan), 2. Center for Resilience and Intelligence on Sustainable Energy Research (RiSER), National Cheng Kung University (Taiwan))

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[PC-36]Photocatalytic Conversion of CO₂ into CO with H₂O Over Ag@Cr Cocatalyst-loaded ZnTa₂O₆

*Saki Maeda¹, Kio Kawata^1,2, Shoji Iguchi¹, Shimpei Naniwa¹, Masamu Nishimoto², Kentaro Teramura^1,3 (1. Graduate School of Engineering, Kyoto University (Japan), 2. Ichikawa research center, Sumitomo Metal Mining Co., Ltd. (Japan), 3. Fukui Institute for Fundamental Chemistry, Kyoto University (Japan))

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[PC-37]Effects of Dopant into InGaO₃ on Photocatalytic Water Splitting

*Kohei Sawada¹, Jun Tae Song^2,3, Motonori Watanabe^1,2,3, Miki Inada^2,3, Tatsumi Ishihara^1,2,3 (1. Graduate School of Integrated Frontier Sciences, Kyushu University (Japan), 2. International Institute for Carbon-Neutral Energy Research, Kyushu University, Fukuoka, Japan (Japan), 3. Faculty of Engineering, Kyushu University, Fukuoka, Japan (Japan))

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[PC-38]Investigation of Crystalline Co₃O₄ as an Oxygen Evolution Co-catalyst in TiO₂Based Particle Mixing Photocatalysts

*Shoma Matsubara¹, Shota Tsunewaki¹, Ryuichi Yamaguchi¹, Atsushi Anzai¹, Naoki Tarutani¹, Kiyofumi Katagiri¹, Kei Inumaru¹ (1. Hiroshima university (Japan))

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[PC-39]Au-Ni Catalyzed Glycerol Photoreforming: Impact of Support on H₂ Evolution

*Eleonora La Greca¹, Roberto Fiorenza¹, M. Carmen Herrera-Beurnio³, Francisco José Urbano³, Salvatore Scirè¹, Leonarda Francesca Liotta² (1. Department of Chemical Science, University of Catania (Italy), 2. Institute for the Study of Nanostructured Materials (ISMN), National Research Council (CNR) (Italy), 3. Departamento de Química Orgánica, Instituto Químico para la Energía y el Medioambiente (IQUEMA), Universidad de Córdoba (Spain))

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[PC-40]Photocatalytic C-C cleavage over Rutile TiO₂ for Enhanced H₂ Evolution from Polyols & Sugars

*Luke Roebuck¹, Marta Falkowska¹, Christopher Hardacre¹ (1. University of Manchester (UK))

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[PC-41]Scalable Biomimetic Photocatalytic Reactor for Wastewater Treatment

*Jiaqiang Wang¹, Yi Zhao¹, Han Zhang¹, Tao Wang¹, Zijian Li¹ (1. Yunnan University (China))

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