Session Details
[[C]C403-2am]08. Catalysts and Catalysis
Thu. Mar 27, 2025 9:00 AM - 11:40 AM JST
Thu. Mar 27, 2025 12:00 AM - 2:40 AM UTC
Thu. Mar 27, 2025 12:00 AM - 2:40 AM UTC
[C]C403(C403, Bldg. 2, Area 2 [4F])
[[C]C403-2am-01]Water Splitting over a Ru-Doped SrTiO3 Prepared by Polymerizable Complex Method and Flux Treatment as a Single Particulate Photocatalyst Utilizing Visible Light up to 700 nm
○Chisato Hanafusa1, Yuichi Yamaguchi1,2, Akihiko Kudo1,2 (1. Tokyo Univ. of Science, 2. CVRC, RIST TUS)
[[C]C403-2am-02]Experimental demonstration of dependence of solid solution ratio on sacrificial hydrogen evolution over (CuzAg1-zGa1-yIny)1-xZn2xS2 photocatalysts predicted by machine learning
○Mai Ogano1, Wataru Takahara2, Yosuke Harashima2,3, Yuichi Yamaguchi1,4, Mikiya Fujii2,3, Akihiko Kudo1,4 (1. Fac. Sci., Tokyo Univ. of Sci., 2. NAIST, 3. NAIST, DSC, 4. CVRC, RIST TUS)
[[C]C403-2am-03]Effect of Electrolyte on the Plastic Photoreforming Performance over BiVO4 Photoanode
○Takuya Sakurai1, Qian Wang1 (1. Nagoya University)
[[C]C403-2am-04]Feature extraction of microwaveannealed hematite photoanodes using the factor analysis of machine learning model
○Kaori Matsuzawa1, Yuya Nagai1, Kenji Katayama1 (1. The Univ. of Chuo)
[[C]C403-2am-05]Mechanistic insight into photoinduced defluorination of perfluoroalkyl substances by zinc oxide nanocrystals
○Shuhei KANAO1, Mai YAMAGUCHI1, Yuto TOYOTA1, Yoshinori OKAYASU1, Yuki NAGAI1, Yoichi KOBAYASHI1,2 (1. Ritsumeikan Univ., 2. PRESTO JST)
[[C]C403-2am-06]Visible light induced decomposition of perfluoroalkyl substances by core-shell semiconductor nanocrystals
○Koki Tanaka1, Yuki Nagai1, Yoichi Kobayashi1,2 (1. Ritsumeikan Univ., 2. PRETO JST)
[[C]C403-2am-07]Photocatalytic activity of carbon nitride semiconductors synthesized with oxygen-containing melamine derivatives
○Kazuki Miyata1, Yasuhiro Shiraishi1, Takayuki Hirai1 (1. Osaka University)
Break
[[C]C403-2am-08]High performance of a hybrid consisting of long-wavelength absorbing conjugated polymer and a Ru(II)-Ru(II) supramolecular photocatalyst for CO2 reduction
○Kisuke Nakao1, Sunghan Choi1, Noritaka Sakakibara2, Ewan McQueen3, Sebastian Sprick3, Osamu Ishitani1 (1. Hiroshima University, 2. Institute of Science Tokyo, 3. University of Strathclyde)
[[C]C403-2am-09]Photocatalytic CO2 reduction using Fe-MOF and Ru(bpy)32+
○Toshinori Kobayashi1, Usako Kawakami1, Jie He1, Yukio Furukawa1 (1. Waseda University)
[[C]C403-2am-10]Biodegradable polymer percussor synthesis from acetoacetate using photo/biocatalyst system
○Masaki Kubo1, Yutaka Amao2 (1. Osaka City University, 2. Osaka Metropolitan University)
[[C]C403-2am-11]Preparation of Silica-Coated ZnO with Oxygen Vacancy to Enhance the Performance of Photocatalytic Methane Oxidation
○Han Zhang1, Akira Yamamoto1, Hisao Yoshida1 (1. Kyoto University)
[[C]C403-2am-12]Tandem photothermal steam reforming of methane using gap reactor
○Haochen Wang1, Yuko Nishino1, Akira Yamamoto1, Hisao Yoshida1 (1. Kyoto University)
[[C]C403-2am-13]CO2 photoreduction by changing light intensity and temperature using Ni-Ru/ZrO2 photocatalyst in which Ni sites of Ni nanoparticles are replaced by Ru atoms
○Masahito Sasaki1, Hongwei Zhang2, Tomoki Oyumi1, Yasuo Izumi1 (1. Chiba University, 2. Biogas Institute of Ministry of Agriculture and Rural Affairs, Chengdu)
[[C]C403-2am-14]Comparison of methane production by the difference of surface oxygen vacancy and crystalline phase on TiO2 photocatalyst combined with nickel metal nanoparticles.
○Yuuta Sekine1, Tomoki Ooyumi1, Yasuo Izumi1 (1. Chiba University)
[[C]C403-2am-15]Photocatalytic ammonia synthesis using CeO2 combined with Ru few-atom particles
○Yuuta Watanabe1, Masahito Sasaki1, Noujima Akifumi2, Makino Nobuhiko2, Hisa Masaaki2, Nakajima Takahiro2, Yasuo Izumi1 (1. Chiba University, 2. KRI)