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

Poster PresentationGeneral session : Environmental catalysis

[EC]Environmental catalysis

Wed. Aug 19, 2026 6:30 PM - 8:00 PM JST
Wed. Aug 19, 2026 9:30 AM - 11:00 AM UTC
PS3(International Confference Hall)

[EC-01]Optimizing low-temperature air pollutants removal via gold nanoparticles supported on manganese oxides with different crystalline phases

*Marco Piumetti1, Nadia Grifasi1, Francesca Liuzzi2, Eleonora Calì2, Samir Bensaid1, Nunzio Russo1, Fabio Deorsola1, Nikolaos Dimitratos2, Stefania Albonetti2, Fabrizio Cavani2, Debora Fino1 (1. Politecnico di Torino (Italy), 2. Bologna University (Italy))
Comment()

[EC-02]Influence of TiO2 physically mixed with V2O5-WO3/TiO2 catalyst on the SO2 resistance for NH3-SCR reactions

*Jihoon Cha1, Hongbeom Park1, Inhak Song2, Do Heui Kim1 (1. Seoul National University (Korea), 2. Korea University (Korea))
Comment()

[EC-03]Insights into promoter-induced modifications in the structure and performance of Pt/TiO2 catalysts for H2-based NOx reduction

*Marc Maurer1,2, Maria Casapu2, Jan-Dierk Grunwaldt1,2 (1. Karlsruhe Inst. of Technol. (KIT), Inst. of Catal. Res. and Technol. (IKFT) (Germany), 2. Karlsruhe Inst. of Technol. (KIT), Inst. of Chem. Technol. and Poly. Chem.(ITCP) (Germany))
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[EC-04]Hybrid Photothermal Catalysis over Plasmonic TiO2-Pt for Efficient NOx Reduction

*Gregor Žerjav1, Albin Pintar1 (1. National Institute of Chemistry (Slovenia))
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[EC-05]Balancing Low-Temperature NH3-SCR Activity and SO2 Tolerance in VOx/TiO2 Nanosheets by Tuning Support Oxygen Vacancies

*Liang-Yi Lin1, Ju-Chen Hsu1, Zhi-Yi Lin1 (1. National Yang Ming Chiao Tung University (Taiwan))
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[EC-06]H2-SCR with Pt catalysts supported on solid oxides

*Takeshi Ohnishi1, Shunsaku Yasumura1, Masaru Ogura1 (1. Institute of Industrial Science, The University of Tokyo (Japan))
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[EC-07] Cancel

[EC-08]Iron-Containing Zeolites as Dual-Function Catalysts for Methane Oxidation and Coupled NOx Reduction

*Anne Niederdränk1, Jonas Kiefel1, Melike Mechmed1, Merle Blum1, Olaf Hinrichsen1 (1. Technical University of Munich (Germany))
Comment()

[EC-09]One-pot synthesis of metal encapsulated MFI-type zeolites for durable Three-way catalysts

*HongJun Choi1, Inhak Song1 (1. Korea University (Korea))
Comment()

[EC-10]Enhancement of Low-Temperature Three-Way Catalysis Performance of PtPd-Ni Composites in the Presence of Water Vapor

*Zannatul Mumtarin Moushumy1, Sota Sakamoto1, Ai Kuraoka1, Ryoma Matsumoto1, Keisuke Awaya1, Junya Ohyama1, Masato Machida1 (1. Kumamoto University (Japan))
Comment()

[EC-11]Overcoming deactivation in wet methane combustion using Pd catalysts supported on mechanochemically mixed Al2O3 and ZrO2

Gyu Hyun Jang1, Eunwon Lee1, Hyeongdong Jung1, Dong Chan Park1, JaeHa Lee2, *Junhee Yoon1, Do Heui Kim1 (1. Seoul National Univ. (Korea), 2. Kyungpook Univ. (Korea))
Comment()

[EC-12]Prediction of Active-Site Structure and Catalytic Activity for Methane Combustion Using Neural Network Potential

*Shiho Sakuma1, Shunsaku Yasumura1, Kenichiro Saita2, Tetsuya Taketsugu3, Masaru Ogura1 (1. The University of Tokyo (Japan), 2. Yokohama City University (Japan), 3. Hokkaido University (Japan))
Comment()

[EC-13]Sulfur tolerance of Pd-Ceria catalysts for CH4 oxidation through Pr-doping

Enrico Sartoretti1, Eleonora Calì1, Chiara Novara1, Nunzio Russo1, Debora Fino1, *Samir Bensaid1 (1. Politecnico di Torino (Italy))
Comment()

[EC-14]Lean and humid methane combustion at low temperature using Pd/CZO catalysts in an electric field

*Keisuke Kuroki1, Kei Sugiura1, Takuma Higo1, Nobuki Matsumoto1, Harunobu Tedzuka1, Yasushi Sekine1 (1. Waseda University (Japan))
Comment()

[EC-15]Bimetallic Ag-Cu/CeO2-ZrO2-MnOx(SnO2) catalysts for CO oxidation and soot combustion

*Mikhail A. Salaev1, Maria V. Grabchenko1, Grigoriy V. Mamontov1, Natalia V. Dorofeeva1, Anna S. Savel'eva1, Maria V. Chernykh1, Natalia N. Mikheeva1, Anna M. Murtazalieva1, Arina A. Salaeva1, Olga V. Vodyankina1 (1. Tomsk State University (Russia))
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[EC-16]Catalytic Activity and Kinetics of Layered Double Hydroxide (LDH)-Supported Gold Catalysts for Preferential Oxidation of CO

*Riku Suzuki1, Akihiro Nakayama2, Norihito Sakaguchi3, Toru Murayama3, Tetsuo Honma4, Tetsuya Shimada1, Shinsuke Takagi1, Tamao Ishida1,5 (1. Tokyo Metropolitan University (Japan), 2. Kyushu University (Japan), 3. Hokkaido University (Japan), 4. Japan Synchrotron Radiation Research Institute (Japan), 5. Osaka Metropolitan University (Japan))
Comment()

[EC-17]CO Oxidation Activity and Oxygen Storage Property of Co-doped BaTiO3

*Ryosuke Sugimoto1, Kenyu Matsumoto1, Saburo Hosokawa1 (1. Kyoto Institute of Technology (Japan))
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[EC-18]Polarized electric Field and Defect-induced Energy Storage Effects Enhancing the All-Weather Piezocatalytic activities of Bi25FeO40 crystal

*Tao Xiong Wu2,1, Ayumu Onda1, Tan Guo Qiang2 (1. Kochi University (Japan), 2. Shaanxi University of Science & Technology (China))
Comment()

[EC-19]Effect of calcination temperature on TiO2 catalysts for DBD plasma-assisted non-oxidative coupling of methane

*Dong-Won - Lee1, Joong Jin Han1, Kyung-Su Ha2, Jung-Hyun Park1 (1. Korea Research Institute of Chemical Technology (Korea), 2. Sogang University (Korea))
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[EC-20]Low-Temperature Oxidative Coupling of Methane on Ba(Zr,M)O3

*Yosuke Nakamura1,2, Shuntaro Watanabe1, Hisashi Kozuka1, Atsushi Ishikawa2 (1. Niterra Co., Ltd. (Japan), 2. Institute of Science Tokyo (Japan))
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[EC-21]Investigation of MTO Reaction Mechanism Using Automated Reaction Route Mapping

*Wataru Kuboki1, Shunsaku Yasumura1, Masaru Ogura1 (1. The University of Tokyo (Japan))
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[EC-22]Support Effects on the Catalytic Performance of Supported Ru Catalysts for Reduction of Perchlorate in Water

*Jianqi Wang1, Kaili Huang1, Ryoichi Otomo2, Yuichi Kamiya2 (1. Graduate School of Environment Science, Hokkaido University (Japan), 2. Faculty of Environmental Earth Science, Hokkaido University (Japan))
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[EC-23]Mechanistic Investigation of Carboxylic Acid Hydrogenation to Alcohol over Ru3Sn7/ZnO catalyst: in situ DRIFT and MS study

*Dae Ho Hong1, Mahlet Nigus Gebresillase1, Jeong Gil Seo1 (1. Department of chemical engineering, Hanyang university (Korea))
Comment()

[EC-24]Cu-Carbon composite encapsulated in graphene oxide as sensing platform for binary pharmaceutical pollutants in water samples

*Yu-Jen Shih1, Zhi-Lun Wu1 (1. Institute of Environmental Engineering, National Sun Yat-sen University, Kaohsiung (Taiwan))
Comment()

[EC-25]Catalytic Degradation of Nerve Agent Simulants and Toxic Phenolic Pollutants by MOF-808

*Shen-Wei Yu1, Yu-Jhih Dai1 (1. Department of Chemical and Materials Engineering, Chung Cheng Institute of Technology, National Defense University (Taiwan))
Comment()

[EC-26]Silver and copper deposited onto magnetic carbon nanofibers as highly active catalysts for 4-nitrophenol reduction

*Ching-Shiun Chen1, Yan-Chu Chen, Hung-Chi Wu (1. Center for General Education/Center for Sustainability and Energy Research Technology Chang Gung University (Taiwan))
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[EC-27]Hydroconversion of polyethylene over Ru-based catalysts

*Joon Keol Yoon1, HyeongDong Jung1, Junho Suh1, Yong Hyun Lim1, Jae-Soon Choi2, Jungup Bang2, Do Heui Kim1 (1. Seoul National University (Korea), 2. LG Chemistry (Korea))
Comment()

[EC-28]Ultra-Fast Joule Heating Synthesis of Homogeneous Bimetallic Catalysts for Electrochemical Ammonium Production

*Jenn Fang Su1, Minh-Son Hoang1, Yuan Chun Ye1 (1. Chang Gung University (Taiwan))
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[EC-29]Electrocatalytic Reduction of Nitrate and Electrochemical Detection of Diuron Using Copper-Based Electrodes

*Ching-Lung Chen1 (1. Ming Chi University of Technology (Taiwan))
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[EC-30]Direct air capture (DAC) by amine-functionalized silica aerogels

*Ja Yun Heo1, Jeong GIl Seo1 (1. Hanyang University (Korea))
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[EC-31] Cancel

[EC-32]Modified Titanium dioxide Nanosized Photocatalysts - Innovations and Applications for the Environment Remediation

*Chin Wei Lai1 (1. University of Malaya (Malaysia))
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[EC-33]Synergistic O2 Activation for Formaldehyde Oxidation over Ti3C2 Quantum Dot-Decorated ZnIn2S4 Photocatalyst

*Shou-Heng Liu1 (1. Department of Environmental Engineering, National Cheng Kung University, Tainan 70101, Taiwan (Taiwan))
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[EC-34]pH-Dependent Mechanistic Insights into Photoelectrocatalytic Pollutant Degradation versus Photocatalytic and Electrocatalytic Pathways

*Mir Ferdous Chowdhury1, Fumiaki Amano1 (1. Tokyo Metropolitan University (Japan))
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[EC-35]Preparation of Nanosized TiO2 Catalyst Supported on Mesoporous MCM-41 Material

*Chi-En Wu1, Xin-Yi Xu1, Tzong-Horng Liou1 (1. Ming Chi University Of Technology (Taiwan))
Comment()
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