西交•通全球暑期学校(XJTISS)讲座通知
能源环境前沿技术讲座
2026年7月13-14日
中国,西安
1. 课程简介
能源环境前沿技术讲座聚焦废水资源化处理与低碳能源生产,围绕微生物电化学技术、光电化学技术、电化学废水处理、微生物电合成及环境生物技术等前沿方向,面向能源环境领域的国际研究热点开展系列专题讲座。
课程共设置8次专题讲座,内容涵盖光电催化废水处理与制氢、微生物电合成固碳技术、废水生物处理制氢、氢制备及工业化技术、能源自持污水处理技术、PHA的生物合成技术以及电化学废水处理与资源回收等主题。课程注重环境工程、电化学工程、微生物工程、材料科学与新能源科学的交叉融合,系统介绍相关技术的基本原理、前沿进展、应用场景及发展挑战。
本课程突出“污染治理—能源回收—资源再生”一体化理念,旨在帮助学生了解能源环境领域国际前沿技术,拓宽国际视野,提升跨学科科研思维与创新能力。
2. 课程体系
授课形式:线上(腾讯会议)
讲座时长:单次讲座时长约90分钟
授课语言:英语
课程安排:
时间(2026年7月13-14日) |
讲座名称 |
主讲人 |
课程主要内容 |
13日 8:30-10:00 |
Photo-electrochemical Technology for Sustainable Wastewater Treatment |
Ho Li-Ngee |
光电催化燃料电池处理废水产电技术原理和发展前沿 |
13日10:10-11:40 |
Microbial Electrochemical CO2 Fixation |
郭坤 |
微生物电化学固碳同步产乙酸、甲烷、蛋白等高值化学品的技术原理和最新进展 |
13日14:30-16:00 |
Biohydrogen Production from Palm Oil Mill Effluent (POME): Advancing Sustainable Waste-to-Energy Technologies |
Nabilah Aminah Lutpi |
利用棕榈油厂废水制备生物氢:可持续废弃物能源转化技术 |
13日16:10-17:40 |
Recent Advances and Trends in the Technology and Industrialization of Hydrogen Energy in China |
陈庆云 |
主要介绍中国在氢能的工业化和技术发展的最新研究进展和发展趋势 |
|
14日8:30-10:00 |
Energy-Independent Wastewater Treatment Plant |
Booki Min |
微生物废水处理协同产氢技术原理和最新研究进展 |
14日10:10-11:40 |
Microbial PHA Production: From Organic Carbon Feedstocks to CO2 Recent |
蔡文芳 |
生物合成PHA的技术原理及发展前沿 |
14日14:30-16:00 |
Progress in Microbial Fuel Cells |
王云海 |
微生物燃料电池技术的原理和最新研究进展 |
14日16:10-17:40 |
Electrochemical Wastewater Treatment for Resource Recovery |
王云海 |
电化学废水处理及资源回收技术原理及最新研究进展 |
3. 课程团队
(1)Min Booki教授任职于韩国庆熙大学(Kyung Hee University)工程学院环境科学与环境工程系。研究方向包括环境生物技术、生物/环境电化学、废水与水处理、微生物燃料电池及微生物电合成等。其为Kyung Hee World Top 2% Researchers成员,Scopus引用超过10000次,h-index为55。其研究内容包括微生物燃料电池、厌氧消化耦合微生物电化学系统、CO2微生物电合成高值化学品、构建湿地-微生物燃料电池等。
(2)Ho Li-Ngee副教授任职于马来西亚大学(珀利斯)。研究方向包括光催化燃料电池、微生物燃料电池、光催化氧化、高级氧化过程、废水处理及能源转化等。其已发表论文150余篇,被引超过3800次。研究内容包括光电催化污染物降解、废水产电、制氢及环境能源协同转化等。
(3)Nabilah Aminah Lutpi副教授任职于马来西亚大学(珀利斯)(Universiti Malaysia Perlis)。研究方向包括绿色能源、生物制氢、生物质能源技术、废水处理、厌氧消化、微生物燃料电池及固定化细胞等。其发表论文70余篇,研究内容包括热嗜性发酵制氢、棕榈油厂废水处理、生物电产能、吸附与生物质资源化等。
(4)王云海教授任职于西安交通大学能源与动力工程学院环境科学与工程系,博士生导师。研究方向包括燃料电池、微生物燃料电池、光电催化技术、纳米半导体电极催化剂材料及废水高级氧化处理等。研究内容包括环境电化学、废水处理、能源回收、污染物降解与环境功能材料开发等。承担国家自然科学基金、教育部博士点基金、陕西省工业攻关、广东省科技计划及企业委托课题等多项科研项目,发表学术论文40余篇,申报中国及国际专利10余项,编写专著及教材3部。担任Journal of Experimental Nanoscience、Nanoscience Methods编委
(5)陈庆云教授任职于西安交通大学,博士生导师,现任新能源多相流研究所副所长。研究方向包括光电催化、可再生能源转化、污染物控制、光催化燃料电池及微生物燃料电池等。主持国家自然科学基金、博士点基金、陕西省基金及横向项目20余项,在Applied Energy、Bioresource Technology、Journal of Power Sources等期刊发表论文40余篇,申请发明专利10余项。
(6)郭坤教授任职于西安交通大学化学工程与技术学院,博士生导师、独立PI,微生物与电化学技术课题组负责人。研究方向包括电能驱动微生物固碳产菌体蛋白和生物塑料、微生物电化学反应器和功能菌群设计、有机废水和工业废气微生物电化学资源化转化等。担任Frontiers in Microbiology副主编,Environmental Science & Ecotechnology、Microbial Biotechnology等期刊编委。
(7)蔡文芳副教授任职于西安交通大学化学工程与技术学院,博士生导师。研究方向包括废水、废气资源化利用及高值化学品合成、有机废物和重金属废水微生物电化学资源化转化、微生物固碳合成乙酸/甲烷/生物塑料/生物蛋白、生物反应器内气体传质强化及生物反应装置研发等。研究内容涉及电极微纳界面调控、微生物电合成体系气液传质、电流密度提升和CO2固定合成化学品等。
4.课程申请
报名截止日期:2026年7月14日
报名注册:请扫描下面二维码并填写相关信息提交后即完成注册,选择课程Lectures on Frontier Technologies in Energy and Environment。

学生待遇:全程参与课程且作业考核合格者可获得西安交通大学相关学习认证证书。
线上授课腾讯会议号:909-2188-2745
腾讯会议链接:https://meeting.tencent.com/dm/fB10Cx1s1Znk
开课通知网址:https://epe.xjtu.edu.cn
咨询联络:王老师, Email: wang.yunhai@mail.xjtu.edu.cn, Tel:18049580377
Lectures on Frontier Technologies in Energy and Environment
July 13–14, 2026 | Xi’an, China
1. Course Overview
Lectures on Frontier Technologies in Energy and Environment focuses on wastewater resource recovery and low-carbon energy production. The course covers cutting-edge areas including microbial electrochemical technologies, photoelectrochemical technologies, electrochemical wastewater treatment, microbial electrosynthesis, and environmental biotechnology.
A total of eight thematic lectures are included, covering photoelectrochemical wastewater treatment and hydrogen production, microbial electrochemical CO2 fixation, biohydrogen production from wastewater, hydrogen production and industrialization technologies, energy self-sufficient wastewater treatment systems, microbial PHA biosynthesis, microbial fuel cells, and electrochemical wastewater treatment and resource recovery.
The course emphasizes interdisciplinary integration among environmental engineering, electrochemical engineering, microbial engineering, materials science, and new energy science. It systematically introduces the fundamental principles, recent advances, application scenarios, and development challenges of related technologies.
The course highlights the integrated concept of “pollution control – energy recovery – resource regeneration”, aiming to help students understand frontier international technologies in the energy and environmental field, broaden their global perspective, and enhance interdisciplinary research thinking and innovation ability.
2. Course Structure
Teaching format: Online (Tencent Meeting)
Lecture duration: 90–120 minutes per session
Schedule
Date & Time (2026) |
Lecture Title |
Instructor |
Key Content |
July 13, 08:30–10:00 |
Photo-electrochemical Technology for Sustainable Wastewater Treatment |
Ho Li-Ngee |
Principles and advances in photoelectrochemical fuel cell-based wastewater treatment and electricity generation |
July 13, 10:10–11:40 |
Microbial Electrochemical CO2 Fixation |
Kun Guo |
CO2 fixation via microbial electrochemical systems for acetate, methane, protein, and other value-added products |
July 13, 14:30–16:00 |
Biohydrogen Production from Palm Oil Mill Effluent (POME): Advancing Sustainable Waste-to-Energy Technologies |
Nabilah Aminah Lutpi |
Biohydrogen production from industrial wastewater and waste-to-energy conversion technologies |
July 13, 16:10–17:40 |
Recent Advances and Trends in Hydrogen Energy Technology and Industrialization in China |
Qingyun Chen |
Hydrogen energy industrialization and technological development trends in China |
July 14, 08:30–10:00 |
Energy-Independent Wastewater Treatment Plant |
Booki Min |
Microbial wastewater treatment coupled with hydrogen production systems |
July 14, 10:10–11:40 |
Microbial PHA Production: From Organic Carbon Feedstocks to CO2 |
Wenfang Cai |
Principles and advances in microbial biosynthesis of PHA |
July 14, 14:30–16:00 |
Progress in Microbial Fuel Cells |
Yunhai Wang |
Principles and latest developments in microbial fuel cell technology |
July 14, 16:10–17:40 |
Electrochemical Wastewater Treatment for Resource Recovery |
Yunhai Wang |
Electrochemical wastewater treatment and resource recovery technologies |
3. Teaching Team
(1) Prof. Booki Min is a professor in the Department of Environmental Science and Environmental Engineering, College of Engineering, Kyung Hee University, Korea, and serves as a department chair. His research interests include environmental biotechnology, bio/environmental electrochemistry, wastewater and water treatment, microbial fuel cells, and microbial electrosynthesis. He is listed among Kyung Hee World Top 2% Researchers, with over 10,000 Scopus citations and an h-index of 55. His research covers microbial fuel cells, anaerobic digestion coupled with microbial electrochemical systems, microbial electrosynthesis of value-added chemicals from CO2, and constructed wetland-microbial fuel cell systems.
(2) Dr. Ho Li-Ngee is an associate professor at Universiti Malaysia Perlis, Malaysia. Her research interests include photocatalytic fuel cells, microbial fuel cells, photocatalytic oxidation, advanced oxidation processes, wastewater treatment, and energy conversion. She has published more than 150 papers with over 3,800 citations. Her research covers photoelectrocatalytic pollutant degradation, electricity generation from wastewater, hydrogen production, and integrated environmental energy conversion.
(3) Dr. Nabilah Aminah Lutpi is an associate professor at Universiti Malaysia Perlis, Malaysia. Her research interests include green energy, biohydrogen production, biomass energy technologies, wastewater treatment, anaerobic digestion, microbial fuel cells, and immobilised cells. She has published more than 70 papers. Her research covers thermophilic fermentative hydrogen production, palm oil mill effluent treatment, bioelectricity generation, adsorption, and biomass resource utilisation.
(4) Prof. Yunhai Wang is a professor and doctoral supervisor in the Department of Environmental Science and Engineering, School of Energy and Power Engineering, Xi’an Jiaotong University, China. His research interests include fuel cells, microbial fuel cells, photoelectrocatalytic technologies, nano-semiconductor electrode catalyst materials, and advanced oxidation processes for wastewater treatment. His research covers environmental electrochemistry, wastewater treatment, energy recovery, pollutant degradation, and environmental functional materials. He has undertaken projects funded by the National Natural Science Foundation of China, Doctoral Fund, provincial science and technology programmes, and industry partners. He has published more than 40 academic papers, filed more than 10 Chinese and international patents, and authored three books/textbooks. He serves on the editorial boards of Journal of Experimental Nanoscience and Nanoscience Methods.
(5) Prof. Qingyun Chen is a professor and doctoral supervisor at Xi’an Jiaotong University, China, and Deputy Director of the Institute of New Energy Multiphase Flow. Her research interests include photoelectrocatalysis, renewable energy conversion, pollution control, photocatalytic fuel cells, and microbial fuel cells. She has led more than 20 projects funded by the National Natural Science Foundation of China, Doctoral Fund, Shaanxi Provincial Foundation, and industry partners. She has published more than 40 papers in journals such as Applied Energy, Bioresource Technology, and Journal of Power Sources, and has filed more than 10 invention patents.
(6) Prof. Kun Guo is a professor, doctoral supervisor, independent PI, and head of the Microbial and Electrochemical Technologies Research Group in the School of Chemical Engineering and Technology at Xi’an Jiaotong University, China. His research interests include electricity-driven microbial carbon fixation for single-cell protein and bioplastics production, microbial electrochemical reactor and functional microbiome design, and microbial electrochemical resource recovery from organic wastewater and industrial waste gases. He serves as an associate editor of Frontiers in Microbiology and an editorial board member of Environmental Science & Ecotechnology and Microbial Biotechnology.
(7) Dr. Wenfang Cai is an associate professor and doctoral supervisor in the School of Chemical Engineering and Technology at Xi’an Jiaotong University, China. Her research interests include wastewater and waste gas valorisation, synthesis of value-added chemicals, microbial electrochemical conversion of organic waste and heavy-metal wastewater, microbial carbon fixation for acetate, methane, bioplastics and bioprotein production, gas transfer enhancement in bioreactors, and bioreactor development. Her research covers electrode micro/nano-interface regulation, gas–liquid mass transfer in microbial electrosynthesis systems, current density enhancement, and CO2 fixation for chemical synthesis.
4. Course Information
Application Deadline: July 14th, 2026.
For registration, please scan the following code with Wechat and fill in the relative information(choose the course entitled Lectures on Frontier Technologies in Energy and Environment) and submit.

Student Benefits: Students who complete the full course and pass the required assessment will receive a certificate of study issued by Xi’an Jiaotong University.
Please join the meeting using this Tencent Meeting ID: 909-2188-2745
Meeting link: https://meeting.tencent.com/dm/fB10Cx1s1Znk
Website: https://epe.xjtu.edu.cn
Contact: Prof. Yunhai Wang Email:wang.yunhai@xjtu.edu.cn, Tel:0086-18049580377