一、报告时间：2025年11月6日（星期四）上午9:30-12:30

二、报告地点： 华南理工大学大学城校区环境楼215报告厅

三、报告安排

四、报告摘要以及报告人简介

1. 报告题目：DeNOx, ReNOx, and CatalyticTechnology for Nitrogen Circulation

报告人：Masaru Ogura（东京大学教授）

报告摘要：

To address CO2 and NOx emissions from combustion,Japan is developing ammonia (NH3) combustion systems, which facechallenges of N2O formation and high NH3 productioncosts. The team proposes a novel NOx-To-Ammonia (NTA)process. This two-step catalytic system first concentrates dilute NO fromexhausts using a palladium zeolite, then converts it efficiently to pure NH3with hydrogen over a platinum catalyst in the absence of oxygen, a methodtermed “ReNOx”.

报告人简介：

ProfessorMasaru Ogura is currently a full-time professor at the Institute of IndustrialScience and the Center for Integrated Research of Sustainable Materials andEnergy at the University of Tokyo, specializing in catalytic materials andenvironmental chemistry. He has received the Research and DevelopmentEncouragement Award from the Japan Petroleum Institute (2006) and the Researchand Development Encouragement Award from the Catalysis Society of Japan (2008).He has led the Catalysis Committee of the International Zeolite Association(2019-2025), published 211 peer-reviewed papers, and holds 24 patents.

2. 报告题目：Direct synthesis of H2O2 overpolymer supported catalysts

报告人：Paolo Centomo（帕多瓦大学教授）

报告摘要：

The industrial production of hydrogen peroxide is hampered by theenergy-intensive and costly Riedel-Pfleiderer process, making on-site directsynthesis a promising alternative. However, this method's selectivity is amajor challenge, which we have found can be improved through novel enhancersthat reconstruct the catalyst's active phase and through the use of specificmesoporous supports.

 报告人简介：

Paolo Centomoreceived his M.S. degree in 2002 and his Ph.D. degree in 2005 from theUniversity of Padua, Padua, Italy. He is currently an Associate Professor inthe Department of Chemical Sciences at the University of Padua, Padua, Italy.His current research interests include heterogeneous catalysis, directsynthesis of hydrogen peroxide, and the in-situ/operando investigation ofcatalysts with X-ray absorption spectroscopy.

3. 报告题目：Data-driven heterogeneous catalysis research

报告人：Takashi Toyao（北海道大学副教授）

报告摘要：

Recentrevolutions made in data science could have a great impact on traditionalcatalysis research in both industry and academia and could accelerate thedevelopment of catalysts. Machine learning (ML), a subfield of data science,can play a central role in this paradigm shift away from the use of traditionalapproaches. In this talk, I will show our recent contributions to establishing“Catalysis Informatics”.

报告人简介：

Takashi Toyaostudied Applied Chemistry and obtained his PhD from Osaka Prefecture Universityunder the supervision of Prof. Masaya Matsuoka. After a 2-month period as aJSPS postdoctoral research fellow, he joined Hokkaido University as anAssistant Professor in 2015. During 2016-2022, he also served as a projectAssistant Professor at Kyoto University. Since 2023, he has been an AssociateProfessor at Institute for Catalysis, Hokkaido University. His researchinterests include CO2 utilization, automotive emission control, andlower alkanes upgrading using experimental, theoretical and data scienceapproaches. He has published more than 200 peer reviewed papers, includingJACS, Angew, NC, EST, etc al. He was recently awarded The Chemical Society ofJapan Award for Young Chemists (2022).

4. 报告题目：光热逆水煤气变换催化剂的设计和反应机理

报告人：张宁强（东北大学教授）

报告摘要：

逆水煤气变换（RWGS）反应可实现CO2加氢定向转化为CO，为后端费托合成提供原料。光热协同体系能突破传统热催化高能耗、纯光催化效率低的瓶颈。因此，其催化剂设计与反应机理研究，既是对WGS反应应用场景的拓展，也为“双碳”目标下能源与环境问题的解决提供新路径，具有重要学术价值与应用前景。张宁强近年围绕过渡金属和稀土材料研发了多系列光热RWGS催化剂，突破了传统单一热力学平衡转化率，同时也突破了目前报道的催化剂活性的极限值。报告将从光热RWGS的催化体系构建、反应机理解析等角度深入理解光热RWGS背后的科学问题。

报告人简介：

张宁强，东北大学，教授/博士生导师。主要从事大气（NOx、N2O和CO2等）排放控制和外场增强热催化过程。张宁强于2019年在北京工业大学取得博士学位；2019–2021年在清华大学化学系从事博士后研究；2021–2023年受到日本JSPS外国人特别研究员项目资助，在北海道大学触媒科学研究所从事博士后研究；2023年11月起入职北海道大学触媒科学研究所Ken-ichi Shimizu教授研究室助理教授。目前，在Environ. Sci. Technol.、Angew.Chem.、J. Catal和ACS Catal等刊物发表论文50余篇，主持国家级和省部级项目共计4项。