We cordially invite you to join us for the 2nd China-Japan Symposium on Catalysis (2ndCJSC) to be held in Shanghai, China.
Notice: 1. The deadline for registration has now been extended to Oct. 15th, 2024.
2. The event will now be held in-person only.
3. Please note that the poster should be 1.2m (height) x 0.9m (width) in size.
Organized and chaired by Prof. Hiromi Yamashita from Osaka university, the 1st Japan-China Symposium on Catalysis (1stJCSC) was held successfully on October 10-12, 2021, where heated discussion was made among researchers from both Japan and China. To strengthen the scientific corporation between both countries and to keep the momentum going, we decide to hold the 2nd China-Japan Symposium on Catalysis (2ndCJSC) in Shanghai, China, from November 3rd to November 5th, 2024 (November 3rd is for registration only). This event will now be held in-person only. Students and early career young researchers are also encouraged to join us. A special issue will be launched on Catalysis Today (Elsevier) in 2025 to memorize this event. We look forward to having you join us!
Where the symposium will be held:
Holiday Inn Shanghai Huaxia
Address:
No.38 Caobao Road, Xuhui District, Shanghai, China
Program
Final Program is now available --> DOWNLOAD (PDF)
Final Program timetable for speakers is now available
2nd China-Japan Symposium on Catalysis Program | ||
November 3rd 2024(Sunday) Whole day, Registration (Holiday Inn Shanghai Huaxia) | ||
November 4th 2024 Morning | ||
Venue:Lecture Hall, Holiday Inn Shanghai Huaxia | ||
8:10-8:30 | Opening Ceremony | |
Session 1 | ||
Chair | Hexing Li (Shanghai University of Electric Power); Hisao Yoshida (Kyoto University) | |
PL-1 08:30-08:50 | Tatsumi Ishihara (Kyushu University) | Direct oxidation of H2 for H2O2 synthesis on Pd nano collide |
KN-1 08:50-09:05 | Junhua Li (Tsinghua University) | Challenges in simultaneous removal of NOx and VOCs over bifunctional catalysts for architectural material industry |
IL-1 09:05-09:17 | Noritatsu Tsubaki (University of Toyama) | Multifaceted promotion of CO2 hydrogenation technology |
IL-2 09:17-09:29 | Xufang Qian (Shanghai Jiao Tong University) | From pollutants elimination to resource upcycling: Low-carbon and green energy strategies |
IL-3 09:29-09.41 | Kai Dai (Huaibei Normal University) | Controllable construction of metal chalcogenide-based S-scheme heterostructure for enhanced charge separation |
IL-4 09:41-09:53 | Ken Motokura (Yokohama National University) | Bifunctional heterogeneous catalyst systems for efficient organic reactions |
IL-5 09:53-10:05 | Kangle Lv (South-Central Minzu University) | Boosting the photocatalytic activity of high-energy TiO2 nanocrystals towards NO oxidation by surface defluorination |
10:05-10:30 | Group photo and Coffee Break(10+15) | |
Session 2 | ||
Chair | Keiichi Tomishige (Tohoku University); Haijun Chen (Nankai University) | |
Pl-2 10:30-10:50 | Fengshou Xiao (Zhejiang University) | Targeted synthesis of zeolites from theoretical calculation and design of efficient catalysts |
KN-2 10:50-11:05 | Masato Machida (Kumamoto University) | New insight into thermal deactivation of three-way catalysts: From nanostructure to catalyst life prediction |
IL-6 11:05-11:17 | Mingce Long(Shanghai Jiaotong University) | Efficient fenton-like catalysis mediated by the selective generation of CoⅣ=O species from Co single-atom catalysts |
IL-7 11:17-11:29 | Graham Dawson (Xi'an Jiaotong-Liverpool University) | Surface modification of titanate nanotubes towards applications in photocatalysis |
IL-8 11:29-11:41 | Yun Hu (South China University of Science and Technology) | Coupled systems construction on MOF-based photocatalysts for energy recovery and wastewater treatment |
OL-1 11:41-11:51 | Takashi Toyao (Hokkaido University) | Accelerated discovery of heterogeneous catalysts using machine learning approach |
OL-2 11:51-12:01 | Ningqiang Zhang (Hokkaido University) | Design of de-NOx catalysts and systems for lean-burn engines without external reductant injection |
Lunch | ||
November 4th 2024 Afternoon | ||
Session 3 | ||
Chair | Junhua Li (Tsinghua University); Masato Machida (Kumamot Univ.) | |
PL-3 13:30-13:50 | Keiichi Tomishige (Tohoku University) | Development of heterogeneous catalysts for H2-driven deoxydehydration |
KN-3 13:50-14:05 | Ding Ma (Peking University) | Low-temperature water activation and catalytic hydrogen production |
IL-9 14:05-14:17 | Zhenfeng Bian (Shanghai Normal University) | Photocatalytic principles for precious metal recycling |
IL-10 14:17-14:29 | Sheng Dai (East China University of Science and Technology) | Low damage HAADF-STEM imaging on heterogeneous catalysts |
IL-11 14:29-14:41 | Haijun Chen (Nankai University) | A new deNOx process: Methanol-SCR over zeolite catalysts |
IL-12 14:41-14:53 | Shuji Tanabe (Nagasaki University) | Reaction mechanism analysis of cyclohexane steam reforming on Ni-Mn/SBA-15 by the transient technique |
IL-13 14:53-15:05 | Weiwei Zhang (East China University of Science and Technology) | Construction of crystalline organic photocatalysts |
OL-3 15:05-15:15 | Wenchao Wang (Nanjing University of Science and Technology) | Tuneable photodynamics of carbon nitride for highly effective photocatalysis |
OL-4 15:15-15:25 | Yuan Jing (Tokyo Institute of Technology) | Role of support in the supported-Rh catalysts for N2O decomposition |
15:25-15:45 | Coffee Break | |
Session 4 | ||
Chair | Tatsumi Ishihara (Kyushu University); Ying Zhang (Fudan University) | |
KN-4 15:45-16:00 | Tierui Zhang (University of Chinese Academy of Sciences) | Defective layered double hydroxide based nanostructured photocatalysts |
IL-14 16:00-16:12 | Gongxuan Lv (Lanzhou Institute of Chemical Physics) | Visible light photocatalytic water splitting over Ga2O3 photocatalyst |
IL-15 16:12-16:24 | Yanqin Wang (East China University of Science and Technology) | Upcycling PET wastes into high value-added 1,4-cyclohexanedimethanol (CHDM) via tandem reactions |
IL-16 16:24-16:36 | Ying Yu (Central China Normal University) | Rapid self-reconstruction of pre-electrocatalysts for efficient and stable large-current-density water/seawater splitting |
IL-17 16:36-16:48 | Yong Ding (Lanzhou University) | Photocatalytic water splitting and CO2 reduction over catalysts based on molecular catalyst of polyoxometalates |
IL-18 16:48-17:00 | Tamao Ishida (Tokyo Metropolitan University) | Decoration of gold catalyst surface with thin metal oxide layers derived from inorganic nanosheets |
IL-19 17:00-17:12 | Jieyuan Li (University of Electronic Science and Technology of China) | Radical assisted NOx purification and value-added conversion |
IL-20 17:12-17:24 | Hua Sheng (Institute of Chemistry) | Photocatalytic CO2 reduction with oxygen-tolerance |
IL-21 17:24-17:36 | Shinya Higashimoto (Osaka Institute of Technology) | Visible-light sensitive WO3-based photocatalyst for selective hydroxylation of benzene to phenol |
IL-22 17:36-17:48 | Yikai Xu (East China University of Science and Technology) | Surface accessible plasmonic nanomaterials for SERS and catalysis |
OL-5 17:48-17:58 | Lingcong Li (Hokkaido University) | Rb-Ni/Al2O3 as dual functional materials for CO2 capture and selective hydrogenation to CO |
Banquet | ||
November 5th Morning | ||
Session 5 | ||
Chair | Jiaguo Yu (China University of Geosciences); Fumiaki Amano (Tokyo Metropolitan University) | |
PL-4 08:30-08:50 | Ye Wang (Xiamen University) | Photocatalytic and electrocatalytic conversion of C1 to C2 molecules |
KN-5 08:50-09:05 | Yongfa Zhu (Tsinghua University) | Organic semiconductor photocatalysts for water split and CO2 conversion under solar irradiation |
IL-23 09:05-09:17 | Yuichi Ichihashi (Kobe University) | Hydrogen production from water decomposition over picene derivatives photocatalyst under visible light irradiation |
IL-24 09:17-09:29 | Lingzhi Wang (East China University of Science and Technology) | Photocatalytic conversion of methane |
IL-25 09:29-09.41 | Chenliang Su (Shenzhen University) | Heterogeneous photocatalytic deuteration chemistry |
IL-26 09:41-09:53 | Yang Lou (Jiangnan University) | Edge-confined single and dual-atom catalysts for selective hydrogenation |
IL-27 09:53-10:05 | Xianjun Lang (Wuhan University) | Cooperative photocatalysis with TEMPO over COFs |
10:05-10:25 | Coffee Break | |
Session 6 | ||
Chair | Yongfa Zhu (Tsinghua University); Shinya Higashimoto (Osaka Institute of technology) | |
KN-6 10:25-10:40 | Ying Zhang (Fudan University) | Towards accurate description of both weak and strong correlation in density functional theory |
IL-28 10:40-10:52 | Maochang Liu (Xi’an Jiaotong University) | Solar reforming lignocellulose into H2 over pH-triggered hydroxyl-functionalized chalcogenide nanotwins |
IL-29 10:52-11:04 | Hiromi Yamashita (Osaka University) | Design of nanostructured photocatalysts for energy and environmental uses |
IL-30 11:04-11:16 | Ming Bao (Dalian University of Technology) | Nanoporous metal skeleton catalysts in organic synthesis |
IL-31 11:16-11:28 | Toru Murayama (Hokkaido University) | Selective catalytic oxidation of ammonia over highly dispersed Ag species |
IL-32 11:28-11:40 | Jiaqiang Wang (Yunnan University) | Scalable biomimetic photocatalytic wastewater treatment |
OL-6 11:40-11:50 | Yuxiao Zhang (Yunnan University) | Active sites expansion of molybdenum sulphide and its application in photocatalysis |
OL-7 11:50-12:00 | Yazi Liu (Nanjing Normal University) | Precise regulation of active sites over carbon nitride-based catalysts for enhanced photocatalytic performance |
Lunch | ||
November 5th 2024 Afternoon | ||
Session 7 | ||
Chair | Hiromi Yamashita (Osaka University); Jiaqiang Wang (Yunnan University) | |
PL-5 13:30-13:50 | Jiaguo Yu (China University of Geosciences) | Charge transfer mechanism in S-scheme photocatalyst |
KN-7 13:50-14:05 | Fengtao Fan (Dalian Institute of Chemical Physics) | Unraveling charge transfer dynamics in photocatalysis: From microscopic insights to holistic mapping |
IL-33 14:05-14:17 | Jun Hu (East China University of Science and Technology) | Techno-economic evaluation of various integrated CO2 capture and conversion processes for industrial decarbonization |
IL-34 14:17-14:29 | Yuning Huo (Shanghai Normal University) | Construction of synergistic photocatalytic systems for enhanced antimicrobial performance |
IL-35 14:29-14:41 | Masazumi Tamura (Osaka Metropolitan University) | Hydrogenation of carboxylic acids to alcohols over heterogeneous catalysts |
IL-36 14:41-14:53 | Pengyu Dong (Yancheng Institute of Technology) | Investigation on regulation strategies of MOF/COF-based photocatalysts |
IL-37 14:53-15:05 | Wan-Hui Wang (Dalian University of Technology) | Dehydrogenative coupling reaction with alcohols catalyzed by amidato complexes |
OL-8 15:05-15:15 | Chunyang Dong (The University of HongKong) | Sustainable valorization of low-carbon molecules via photocatalytic H2O-induced reactions |
OL-9 15:15-15:25 | Zekai Huang (Southwest Petroleum University) | Concentrated-solar catalytic dry reforming of methane and carbon dioxide over Ni/CeO2 |
15:25-15:45 | Coffee Break | |
Session 8 | ||
Chair | Toru Murayama (Hokkaido University); Gongxuan Lv (Lanzhou Institute of Chemical Physics) | |
KN-8 15:45-16:00 | Hisao Yoshida (Kyoto University) | Heterogeneous photocatalytic organic syntheses |
IL-38 16:00-16:12 | Qinqin Liu (Jiangsu University) | Building asymmetric Zn–N3 bridge between 2D photocatalyst and co-catalyst for directed charge transfer toward efficient H2O2 synthesis |
IL-39 16:12-16:24 | Fumiaki Amano (Tokyo Metropolitan University) | Electrocatalytic conversion of bicarbonate to formate |
IL-40 16:24-16:36 | PengFei Liu (East China University of Science and Technology) | Electrocatalytic materials and devices for carbon dioxide reduction |
IL-41 16:36-16:48 | XiuLi Wang (Dalian Institute of Chemical Physics) | Photo(electro)catalytic water oxidation reaction kinetics revealed with transient absorption spectroscopy |
OL-10 16:48-16:58 | Binxia Yuan (Shanghai University of Electric Power) | Superhydrophobic photochromic heterostructure composite materials with excellent photocatalytic CO2 reduction |
OL-11 16:58-17:08 | Ben Liu (Fudan University) | Promoting role of Ru species on Ir-Fe/BN catalyst in 1,2-diols hydrogenolysis to secondary alcohols |
17:08-17:18 Closing Ceremony |
Poster (1.2m x 0.9m in size) | |
1 | Zhe Dong (Tohoku university) Effect of Cl derived from Fe precursors on catalytic performance of Ir-FeOx/ZrO2 for selective hydrogenation of benzalacetone |
2 | Takehiro Yamada (Osaka University) RWGS reaction via reversible redox of molybdenum suboxides |
3 | Huang Hao (University of Toyama) Nitrogen-doped two-dimensional carbon nanosheets facilitated FeS2 nanoparticles for efficient hydrogenation of functionalized nitroarenes |
4 | Mikihiro Sakurai (Osaka University) Addtive-free aqueous phase synthesis of formic acid from CO2 by hollow catalyst encapsulating PdAg NPs and aminopolymer |
5 | Yan Fang (Shanghai Jiao Tong University) Electrocatalytic CO2 reduction coupled with poly(ethylene terephthalate) plastic valorization for simultaneous production of formate |
6 | Zhihao Liu (University of Toyama) Designing hydrotalcite-derived CoAlO catalysts for highly selective CO2 methanation |
7 | Shiori Mizutani (Osaka University) Efficient photocatalytic hydrogen peroxide production on hydrophobic porphyrin-based Zr-MOFs |
8 | Xinqian Fang (Nankai University) Caged methylamine in small-pore zeolites with high stability for CO2 capture |
9 | Chao Zhang (Fuzhou University) Enhancing CO2 cycloaddition through ligand functionalization: A case study of UiO-66 metal-organic frameworks |
10 | Satoshi Matsukawa (Osaka University) Hydrogen spillover pathways generated on graphene oxide enabling the formation of non-equilibrium alloy nanoparticles |
11 | Qingli Shu (East China University of Science and Technology) Planar growth, facet-oriented La2O3 (003) in CuLa catalysts: Enhancement in charge transport and water adsorption for methanol steam reforming |
12 | Shota Sakata (Osaka Institute of Technology) Fabrication of copper bismuth oxide via co-electrodeposition and their photoelectrochemical property for water splitting |
13 | Yui Hamada (Osaka Institute of Technology) Photoelectrochemical properties of copper-zinc-tin-germanium sulfide photoelectrodes prepared by co-electrodeposition |
14 | Ahmad Fahmi Prakoso (Kumamoto University) Bulk vanadium oxide catalyst for oxidative coupling of 2-naphthol |
15 | Jie Yuan (Fuzhou University) Unraveling synergistic effect of defects and piezoelectric field in breakthrough piezo-photocatalytic N2 reduction |
16 | Danni Zeng (Yancheng Institute of Technology) ZnIn2S4-based multi-interface coupled photocatalyst for efficient photothermal synergistic catalytic hydrogen evolution |
17 | Shu Lin (Dali University) S-scheme LaCoO3/g-C3N4 heterojunction structure for efficient photocatalytic hydrogen evolution |
18 | Biao Gao (Huazhong University of Science and Technology) Promoting the synthesis of methanol over CoIn2-In2O3: Understanding the pivotal role of CoIn2 for CO2 hydrogenation to methanol |
19 | Yihao Jiang (Tokyo Institute of Technology) Ba-Al oxyhydride electride activating cobalt catalysts for ammonia synthesis |
20 | Mari Yuasa (Tokyo University of Agriculture and Technology) Improving the heat resistance of electrically heating catalyst |
21 | Hyo-Jin Kim (Osaka University) Robust Ni-based self-catalytic reactor for CO2 methanation fabricated by metal 3D printing and electrochemical selective leaching |
22 | Tiangao Jiang (Tokyo University of Agriculture and Technology) Effect of TiO2 for formation of organic peroxides on WO3 photocatalyst in EtOH solution |
23 | Bobo Yan (Hokkaido University) Rapid removal and catalytic decomposition of nitrate in anion-exchange resin containing gold nanoparticles toward purification of groundwater |
24 | Yifan Zhao (Osaka University) Photosynthesis of hydrogen peroxide in a two-phase system by hydrophobic Au nanoparticle-deposited plasmonic TiO2 catalysts |
25 | Longtai Li (Kyushu University) Highly active CO2-H2O co-electrolysis catalyst of CuFeO4-La(Sr)Fe(Mn)O3 composite for La(Sr)Ga(Mg)O3 electrolyte |
26 | Tong Zhou (Yunnan University) Dual-synergy-effect enables ultra-efficient photocatalytic hydrogen production from aqueous methanol |
27 | Xinyu Wei (Tokyo University of Agriculture and Technology) Isomerization of oleic acid using micro/mesoporous ZSM-22 in flow reactor |
28 | Chengwei Qiu (Fuzhou University) Correlation between built-in electric field intensity and photocatalytic activity for heterojunction materials |
29 | Wanli Li (South China University of Technology) Bias-free photoelectrocatalytic co-electrolysis of polyethylene terephthalate plastic and CO2 to formic acid |
30 | Hanghao Lin (Osaka Metropolitan University) Development of alkaline earth metal oxide-modified CeO2 catalysts for the synthesis of polycarbonate diols from CO2 and 1,6-hexanediol |
31 | Fang Wan (Tsinghua University) Support property controls the selectivity of gold catalysts in gas-phase glycerol oxidation for pyruvic aldehyde production |
32 | Toshiya Tsunakawa (Tokyo University of Agriculture and Technology) Effect of acidity of zeolites on deoxygenation and isomerization over Pt-based bifunctional catalysts |
33 | Kaining Li (Osaka University) Coordination-controlled single-site cobalt on hollow carbon spheres for tunable syngas electrosynthesis from CO2 |
34 | Bin Shao (East China University of Science and Technology) Synergistic promotions between CO2 capture and in-situ conversion |
35 | Khalid Umer (Lanzhou University) Electrostatically engineered Ni4P2 polyoxometalate/Mn0.2Cd0.8S through 1,4-benzene dicarboxylic acid for efficient photocatalytic hydrogen production |
36 | Feilong Xing (Tokyo Institute of Technology) Room-temperature CO2 hydrogenation to methanol over air-stable hcp-PdMo intermetallic catalyst |
37 | Xuanwen Xu (Yancheng Institute of Technology) Zinc ions as the effective cocatalysts for CO evolution in the photocatalytic conversion of CO2 using H2O as an electron donor |
38 | Jinlong Wang (East China University of Science and Technology) Boosting CO2 photoreduction by synergistic optimization of multiple processes through metal vacancy engineering |
39 | Yiming Zhu (East China University of Science and Technology) Photo-enhanced selective conversion of ethane to ethene over single-site Mo modified-SAPO-34 |
40 | Wenhui Yue (East China University of Science and Technology) Enhanced photocatalytic hydrogen evolution activity driven by the synergy between surface vacancies and cocatalysts: Surface reaction matters |
41 | Chengxuan He (East China University of Science and Technology) Regulating atomically-precise Pt sites for boosting light-driven dry reforming of methane |
Program timetable for chairpersons
November 4th 2024 Morning | |
Session 1(08:30-10:30) | |
Chair | Hexing Li (Shanghai University of Electric Power); Hisao Yoshida (Kyoto University) |
Session 2(10:30-12:01) | |
Chair | Keiichi Tomishige (Tohoku University); Haijun Chen (Nankai University) |
November 4th 2024 Afternoon | |
Session 3(13:30-15:25) | |
Chair | Junhua Li (Tsinghua University); Masato Machida (Kumamot Univ.) |
Session 4(15:45-17:58) | |
Chair | Tatsumi Ishihara (Kyushu University); Ying Zhang (Fudan University) |
November 5th Morning | |
Session 5(08:30-10:05) | |
Chair | Jiaguo Yu (China University of Geosciences); Fumiaki Amano (Tokyo Metropolitan University) |
Session 6(10:25-12:00) | |
Chair | Yongfa Zhu (Tsinghua University); Shinya Higashimoto (Osaka Institute of technology) |
November 5th 2024 Afternoon | |
Session 7(13:30-15:25) | |
Chair | Hiromi Yamashita (Osaka University); Jiaqiang Wang (Yunnan University) |
Session 8(15:45-17:48) | |
Chair | Toru Murayama (Hokkaido University); Gongxuan Lv (Lanzhou Institute of Chemical Physics) |
Key Dates
Planned dates for the symposium: Nov. 3-5, 2024 Registration: Nov. 3rd, 2024 Main Event: Nov. 4th-Nov. 5th, 2024
Deadline for abstract submission: Sep. 30th, 2024