會議時間:2025年5月21日13：30——17：00

會議地點: 東北林業大學知化樓321會議室

主辦單位: PP电子大学化学化工与资源利用学院  PP电子大学奥林学院

會議主題：

为进一步推进中外相助办学高质量生长，深化教育教學革新，增强国际学术交流与相助，PP电子大学化学化工与资源利用学院与奥林学院将于2025年5月21日联合举办“中外相助办学教育教學与学术研讨会”。此次聚会会议旨在总结办学经验、分析当前挑战，围绕教育教學质量提升、国际化人才培养、学术相助研究等议题展开深入研讨，为中外相助办学提供新思路。聚会会议特邀请新西兰奥克兰大学知名专家和优秀青年学者做主题陈诉，诚挚邀请海内外同行加入本次研讨会。

報告摘要（一）

報告嘉賓：Dr. Marie-Anne Thelen is a professional teaching fellow (PTF4, academic with teaching focus) at the University of Auckland, dedicated to delivering high-quality education and fostering student success. She completed her undergraduate studies at the ETH Zürich in Switzerland (with focus in physical chemistry) before earning her PhD in physical chemistry from the University of Zürich. Her doctoral research focused on laser photodissociation of atmospherically relevant molecules. She received a postdoctoral fellowship funded by the Ministry of Education, Luxembourg.With expertise in course, assessment, and curriculum design, Dr Marie-Anne Thelen was appointed to the chemistry subject expert group in an advisory role to the NZ Ministry of Education, contributing to the review of New Zealand’s Achievement Standards for the National Certificate of Educational Achievement (NZ high school exams) from 2020-2024.

報告題目：Enquiry-Based Education as a Catalyst for PhD Research: Investigating Heavy Metals in School Sharks

內容摘要：The integration of enquiry-based learning (EBL) and research-based learning (RBL) into undergraduate chemistry education can lead to meaningful, real-world research initiatives. This seminar presents how a curriculum designed with integration of EBL and RBL in mind directly inspired a study investigating heavy metal contamination in school sharks (Galeorhinus galeus). The first part of the talk will outline the curriculum structure, highlighting how students engaged with diverse analytical techniques and demonstrated both strong self-awareness of their learning and confidence in applying laboratory methods, as evidenced by student survey results. The second part will focus on preliminary findings from the school shark study, where heavy metal concentrations were measured in pregnant females and their embryos. Contrary to what is often theorized in the literature, our results showed no evidence of maternal offloading of heavy metals to embryos. This work underscores the potential of curriculum-integrated enquiry-based learning to foster significant scientific research while empowering students with critical laboratory skills.

報告摘要（二）

報告嘉賓：王子运博士，新西兰奥克兰大学Senior Lecturer。2012年本科结业于华东理工大学，2015年博士结业于英国女王大学，师从胡培君教授和Chris Hardacre教授。先后在斯坦福大学（相助导师Jens K. N?rskov教授）和多伦多大学（相助导师Edward H. Sargent教授）从事博士后研究，主要研究偏向包罗二氧化碳电还原的理论盘算、人工智能辅助多相催化设计和外貌微动力学。以通讯作者或（配合）第一作者发表文章45篇，其中Nature 2篇，Nature Catalysis 5篇，Nature Energy 2篇，Nature Communications 4篇，J. Am. Chem. Soc. 7篇，Angew. Chem. 4篇。

報告題目：Rational Catalyst Design for CO₂Electrochemical Reduction Reaction

內容摘要：Electrochemical CO₂reduction (CO₂RR) offers a promising route for converting CO₂into valuable chemicals and fuels using renewable electricity. However, significant challenges remain in terms of product selectivity, energy efficiency, and long-term stability, particularly when using industrially-relevant CO₂sources. This talk will present recent advancements in CO₂RR, drawing from several cutting-edge studies that address these challenges from multiple angles. By integrating insights from catalyst development, reaction mechanisms, and electrolyser engineering, this work demonstrates significant progress towards making CO₂electrolysis a viable technology for large-scale carbon utilization and renewable fuel production.

報告摘要（三）

報告嘉賓：Dr Samuel Yick is a Senior Research Fellow at the School of Chemical Sciences, University of Auckland. He completed a BSc in Nanotechnology from the UNSW and obtained his PhD from the University of Sydney in the area of carbon nanomaterials. His research interests are in the fabrication and characterization of advanced materials, with a specific interest in condensed matter materials, nanomaterials, and thin film materials. His current research is on the field of skyrmions, topologically protected spin structures which can hold promises for future low energy devices. His work involves utilising a mix of magnetometers, synchrotron and neutron facilities from around the world to make sense of the spin ordering within the material.

報告題目：Controlling Skyrmions in Cu₂OSeO₃through Doping; an insight to the relationship between crystal structure and magnetic ordering

內容摘要：Magnetic Skyrmion lattices (SkL) are topologically protected spin ordering due to their quantised winding number. This, along with other helimagnetic orderings offer a plethora of fascinating phenomena for fundamental research and applications. Cu2OSeO3 is an insulating multiferroic material that has shown to host SkL at specific conditions.Through neutron diffraction, we found that the magnetic response of the spin ordering is highly susceptible to chemical doping. This implies that the rigidity of the spin coupling might be affected by both magnetic and non-magnetic dopants. We also studied whether doping changed the universality class through magnetometry. These results give us insight as to the relationship between materials structure and magnetic ordering. This highlights the importance of the crystal structure and an avenue to design novel spintronic materials.

報告摘要（四）

報告嘉賓：Rosalyn Falconer is a Lecturer in the School of Chemical Sciences at the University of Auckland. Rosalyn completed her MChem degree at the University of Oxford and PhD in Synthetic Chemistry at the University of Bristol. She then undertook postdoctoral positions at the University of Edinburgh and the CNRS (Lyon, France). Her research focuses on synthesising catalysts featuring earth abundant metals to understand and control their reactivity. This is achieved by studying their reactivity in solution and when attached to solid supports using Surface Organometallic Chemistry techniques. In 2022, Rosalyn was awarded a Marie Sk?odowska-Curie Global Postdoctoral Fellowship to conduct research at the University of British Columbia in Vancouver. Rosalyn joined the School of Chemical Sciences at the University of Auckland as a lecturer in 2024.

報告題目：Building Catalysts on Solid Supports: Controlling and Enhancing Reactivity with Surface Organometallic Chemistry

內容摘要：Surface organometallic chemistry combines the advantages of homogeneous and heterogeneous catalysts by attaching well-defined organometallic complexes onto solid supports such as silica. A key aspect of surface organometallic chemistry is the ability to isolate the metal centres from one another. This prevents deactivating multimolecular processes such as ligand exchange or dimer and cluster formation. Consequently, species with very high reactivity can be isolated on solid supports and studied. Here, I will discuss using traditional surface organometallic chemistry techniques to enhance the reactivity of heterobimetallic Ta/Ir catalysts in C–H activation. The application of more modern surface organometallic chemistry techniques that fully control the metal coordination sphere will be discussed.

報告摘要（五）

報告嘉賓：王霆，男，漢族，1980.10，教授，博士生導師。2006年畢業于東北林業大學林産化學加工工程，獲工學碩士學位；2011年畢業于東北林業大學林産化學加工工程，獲工學博士學位；2012年6月進東北林業大學生物學博士後流動站事情，2018-2019年赴美國佐治亞理工學院化學與分子生物工程系訪學。現任黑龍江省分析測試學會常務理事，中國化學會會員，中國生物質協會會員。

報告題目：Research as a Catalyst for Growth: Practices in Undergraduate Research Training under Sino-Foreign Educational Collaboration

內容摘要：In the context of the continuous advancement of Sino-foreign cooperative education, the cultivation of undergraduate research capabilities has emerged as a critical avenue for enhancing both the quality of talent development and the level of internationalization. This report draws upon the experience of Aulin College at Northeast Forestry University, using recent practices in supervising undergraduate participation in national and provincial Innovation and Entrepreneurship Training Programs as case studies. It examines the pathways and outcomes of undergraduate research training within the framework of Sino-foreign cooperative education. The report aims to offer practical insights and reference models to inform the high-quality development of Sino-foreign educational collaborations and the integration of research into undergraduate education.

報告摘要（六）

報告嘉賓：Tao Jia，Associate Professor of Key Laboratory of Forest Plant Ecology, Ministry of Education, Engineering Research Center of Forest Bio-Preparation, College of Chemistry, Chemical Engineering and Resource Utilization, Northeast Forestry University, Harbin 150040, China. His current research interests include the design of efficient organic photothermal materials for cancer treatment and water purification. He has published more than 40 SCI papers including Angew. Chem. Int. Ed.，Adv. Energy Mater，Adv. Funct. Mater., Chem Eng J., ACS Appl. Mater. Interfaces and applied for 5 invention patents. He has presided the National Natural Science Foundation, China Post-Doctoral Program, Heilongjiang Provincial Key Research and Development Project, the Outstanding Youth Foundation of Heilongjiang Scientific Committee and Heilongjiang Province Returnees Merit Subsidize Project.

報告題目：High Efficient Organic Solar-Thermal Materials for Water-Electric Cogeneration

內容摘要：Organic photothermal materials have attracted intensive attention for their potential applications in solar-driven water evaporation and thermoelectric power generation. According to the Jablonski diagram, the light energy caught by a chromophore often prompts electron transition process from the ground state to the lowest excited state and sequentially, the excited state molecule will rapidly drop back to the ground state through both radiative and non-radiative decays. The non-radiative decay, which refers to an energy dissipation process accompanying the generation of heat energy, has fascinated scientists as a powerful approach for solar-thermal applications. Therefore, constructing molecules with narrow band gap and strong non-radiative transition ability is a vital task for the development of high performance solar-thermal conversion materials. Therefore, we designed and synthesized solar-thermal materials based on donor-acceptor type molecules, polycyclicπ-conjugated molecules, organic radicals molecules, further explained the mechanism of photothermal conversion, and applied to the field of water-electric cogeneration.

報告摘要（七）

報告嘉賓：李占宇，1989年出生，理学博士，副教授，硕士生导师。结业于东北师范大学有机化学专业获得理学博士，师从张前教授。2019年7月进入PP电子大学化学化工与资源利用学院事情，主要从事有机合成，过渡金属催化以及杂环化合物的合成。在国际顶级期刊Jacs，Org Lett，Chemistry-A European Journal等期刊发表多篇高水平论文。

報告題目：Decarboxylative cross-coupling via ligand-to-metal energy transfer photoexcitation of Ti(IV) carboxylates

內容摘要：Photocatalytic decarboxylation of carboxylic acids enables the high-efficiency synthesis of complex molecules, which has now become a hot research topic. In this talk, we use non-toxic titanium metal as a photosensitiser, and pioneeringly propose an inner-sphere ligand-metal energy transfer (LMET) activation strategy to achieve a sterically maintained decarboxylation reaction to obtain the key intermediate carbon-titanium bond, which then undergoes bimetallic relay catalysis to achieve a sterically retained cross-coupling. Mechanistic studies indicate that the activated decarboxylation by LMET strategy can stereospecific access to carbon-titanium species, and the carbon-titanium bond can be further converted into radicals and titanium(III). This study establishes a new mechanism of photocatalytic decarboxylation, which provides a new concept and method for enriching carboxylic acid conversion.