【概况】

穆罕默德·萨尔曼·纳西尔博士，现任天津大学机械工程学院国家发动机重点实验室副教授。他于2017年至2021年在西安交通大学获得动力工程及工程热物理博士学位，2011年至2014年在费萨拉巴德农业大学获得农业工程荣誉硕士学位，2007年至2011年于该校获得农业工程学士学位。2023年至2025年，他在上海交通大学从事博士后研究工作。此前，他曾在费萨拉巴德农业大学担任助理教授及讲师。 纳西尔博士的研究聚焦于先进催化技术，致力于清洁氢气生产、二氧化碳转化为燃料、塑料废弃物资源化利用以及循环经济框架下的可再生能源系统开发。他采用光催化、热催化与材料工程相结合的多学科方法，推动可持续能源技术的创新与发展。 他在包括《自然通讯》《德国应用化学》《科学通报》《先进科学》《应用催化B：环境》等高水平国际期刊上发表SCI论文40余篇，总引用超过1400次，H指数为22。曾参与中国多项国家级重点研究项目，包括国家重点研发计划及国家自然科学基金项目等。 纳西尔博士曾获多项荣誉，包括上海超级博士后激励计划（2023）、中国政府优秀来华留学生奖学金（2019）及西安交通大学优秀国际博士研究生模范奖（2020）。他还是ISO 14001、ISO 9001和ISO 45001管理体系的认证首席审核员。 Nasir博士欢迎对催化、可再生能源及环境工程方向感兴趣的学生和学者联系，开展研究生申请及科研合作。 奖项与荣誉 • 上海超级博士后激励（2023年） • 西习交通大学杰出国际博士生范本奖（2020年） • 中国政府杰出国际学生奖（2019年） • 多次国际会议最佳论文及演讲奖

【教育背景】

2017–2021 中国习交通大学动力工程与工程热物理博士 2011–2014 M.Sc.（荣誉），农业工程，巴基斯坦费萨拉巴德农业大学 2007–2011 B.Sc，农业工程，巴基斯坦费萨拉巴德农业大学 2005–2007 F.Sc（预工程），巴基斯坦奇尼奥特政府伊斯兰学院

【学术经历】

2025年8月至今 中国天津大学机械工程学院副教授 2023–2025 上海交通大学助理研究员，中国 2022–2023 巴基斯坦费萨拉巴德农业大学结构与环境工程系助理教授 2015–2022 巴基斯坦费萨拉巴德农业大学结构与环境工程系讲师 2012–2015 巴基斯坦费萨拉巴德农业大学结构与环境工程系助理执行工程师

【讲授课程】

工程绘图与图形 计算机辅助设计（CAD） 可持续纳米技术 环境工程材料

【教学成果】

指导并指导了多位工程领域的 M.Sc 候选人，从研究构思到论文完成。作为学生监督委员会的委员，他在学生进展、研究质量和学术标准方面发挥了关键作用.

【研究方向】

1. 先进催化技术用于清洁氢气生产 2. 二氧化碳转化为燃料和化学品 3. 塑料废弃物升级再利用与循环经济 4. 可再生能源系统与储能 5. 光催化与光热材料设计

【学术兼职】

巴基斯坦工程委员会注册会员 中国化学学会注册会员 前费萨拉巴德农业大学扶轮社顾问 上海扶轮社活跃会员

【科研项目及成果】

【代表性论著】

1. Liang, Q., Yao L., Ying L., Yixin, …., Nasir MS., et al. (2025). Highly Efficient, Selective, and Ultra-Stable Heterogeneous Thermal Catalysis for Noble-Metal-Free Hydrogen Production from Formic Acid. Nature Communications. 2. Jiaming L,… Nasir MS., Zhou, B et al. (2025). Ru-RuO₂ Coordinated with Si-Supported GaN Nanowires for Light-Driven Simultaneous Activation of CO₂ and H₂ to Achieve Exceptional Reverse Water-Gas Shift Reaction. Angewandte Chemie International Edition. 3. Nasir MS, Pan H, Zhou B. (2024). Economically attractive production of commercial-grade gasoline from waste plastics. Frontiers in Energy. 4. Nasir MS., Zhou, B et al. (2025). Efficient Hole Extraction and •OH Alleviation by Pd Nanoparticles on GaN Nanowires in Seawater for Solar-Driven H₂ and H₂O₂ Generation. Angewandte Chemie International Edition. 5. Nasir MS., Zhou, B et al. (2024). An Integrated Photocatalytic Redox Architecture for Simultaneous Overall Conversion of CO₂ and H₂O toward CH₄ and H₂O₂. Science Bulletin. 6. Nasir MS., Zhou, B et al. (2025). Unlocking Methane Generation via Photo-Thermal-Coupled CO₂ Hydrogenation by Integrating FeNiCrMnCo Multi-Component Alloy with GaN Nanowires. Advanced Science. 7. Liang, Q., Bowen S., Haotian Y., Ping W., Jinglin L., Ying L., Yixin., Tianqi Y., Nasir MS., et al. (2024). *1-Dimensional Metal Nitride-Supported Platinum Nanoclusters for Low-Temperature Hydrogen Production from Formic Acid*. Chemical Engineering Journal. 8. Tianqi Y., Ying Z., Jingling L., Yixin L., Liang Q., Hu P., Nasir MS., et al. (2024). Binary Iron-Manganese Cocatalyst for Simultaneous Activation of C-C and C-O Bonds to Maximally Utilize Lignin for Syngas Generation over InGaN. Angewandte Chemie International Edition. 9. Yixin L., Lin Y., Jinglin L, Tianqi Y., Liang Q., Nasir MS., et al. (2025). GaN Nanowire-Supported NiOx for Low-Temperature and Durable Dry Reforming of Methane toward Syngas. Journal of Catalysis: Applied Catalysis B Environmental and Energy. 10. Nasir MS, Tahir I, Ali A, Ayub I, Nasir A, Abbas N, Sajjad U, Hamid K. (2024). Innovative technologies for removal of microplastic: A review of recent advances. Heliyon. 11. Nasir MS, Yang G, Ayub I, Zhang J, Nasir A, Yan W, Abbas N. (2024). *ZIF-67 derived CoSx mediated 1D hollow carbon nitride for high photocatalytic hydrogen performance*. Materials Today Chemistry. 12. Ali, A., Chen, L., Nasir, M.S. et al. (2022). Piezocatalytic removal of water bacteria and organic compounds: a review. Environmental Chemistry Letters. 13. Wen, B., Zhang, J., Yang, G., Jing, D., Yin, X., Fan, L., Nasir, M.S. and Ding, S. (2022). Optimal electrical conductivity and interfacial polarization induced by loaded nanoparticles on carbon nanotubes for excellent electromagnetic wave absorption performance. Journal of Colloid and Interface Science. ( 14. Ayub I, Nasir MS, Liu Y, Munir A, Wu Z, Yang F, Zhang Z. (2022). Exergo- economic analysis for screening of metal hydride pairs for thermochemical energy storage for solar baking system. Thermal Science and Engineering Progress. 15. Wang S, Li S, Du D, Abass OK, Nasir MS, Yan W. (2022). *Stimulants and donors promote megaplasmid pND6-2 horizontal gene transfer in activated sludge*. Journal of Environmental Sciences. 16. Zhu L, Wang J, Liu J, Xu Z, Nasir MS, Chen X, Wang Z, Sun S, Ma Q, Liu J, Feng J. (2022). In situ enrichment amplification strategy enabling highly sensitive formaldehyde gas sensor. Sensors and Actuators B: Chemical. 17. Nasir MS, Yang G, Ayub I, Nasir A, Yan W. (2021). Higher hydrogen production by photocatalytic water splitting using a hollow tubular graphitic carbon nitride-zinc telluride composite. Environmental Chemistry Letters. 18. Nasir MS, Yang G, Ayub I, Wang X, Wang S, Yan W. (2020). *Hybridization of g-C₃N₄ quantum dots with 1D branched TiO₂ fiber for efficient visible-light-driven photocatalytic hydrogen generation*. International Journal of Hydrogen Energy. 19. Nasir MS, Yang G, Ayub I, Wang S, Yan W. (2020). Tin diselenide a stable co-catalyst coupled with branched TiO₂ fiber and g-C₃N₄ quantum dots for photocatalytic hydrogen evolution. Applied Catalysis B: Environmental. 20. Nasir MS, Yang G, Ayub I, Wang S, Yan W. (2020). *In situ decoration of g-C₃N₄ quantum dots on 1D branched TiO₂ loaded with plasmonic Au nanoparticles and improved the photocatalytic hydrogen evolution activity*. Applied Surface Science. 21. Nasir MS, Yang G, Ayub I, Wang S, Wang L, Wang X, Yan W, Peng S, Ramakarishna, S. (2019). Recent development in graphitic carbon nitride based photocatalysis for hydrogen generation. Applied Catalysis B: Environmental. 22. Zhu L, Wang J, Liu J, Nasir MS, Zhu J, Li S, et al. (2021). Smart formaldehyde detection enabled by metal organic framework-derived doped electrospun hollow nanofibers. Sensors and Actuators B: Chemical. 23. Yang G, Ilango PR, Wang S, Nasir MS, Li L, Ji D, Hu Y, Ramakrishna S, Yan W, Peng S. (2019). Carbon-Based Alloy-Type Composite Anode Materials toward Sodium-Ion Batteries. Small. 24. Wang L, Yang G, Wang S, Wang J, Nasir MS, Wang C, Peng S, Yan W, Ramakrishna S. (2019). Fabrication of hierarchically one-dimensional ZnxCd₁₋ₓS/NiTiO₃ nanostructures and their enhanced photocatalytic water splitting activity. International Journal of Hydrogen Energy. 25. Wang X, Su Y, Yang G, Chai G, Xu Z, Nasir MS, et al. (2021). *Synthesis of Au/UiO-66-NH₂/Graphene composites as efficient visible-light photocatalysts to convert CO₂*. International Journal of Hydrogen Energy. 26. Wang X, Yang G, Chai G, Nasir MS, Wang S, Zheng X, et al. (2020). *Fabrication of heterostructured UIO-66-NH₂/CNTs with enhanced activity and selectivity over photocatalytic CO₂ reduction*. International Journal of Hydrogen Energy. 27. Wang S, Yang G, Nasir MS, Wang X, Wang J, Yan W. (2020). Research Progress on Phosphorus-based Anode Materials for Sodium-Ion Batteries. Acta Physico-Chimica Sinica. 28. Wang D, Wang S, Bai L, Nasir MS, Li S, Yan W. (2020). Mathematical Modeling Approaches for Assessing the Joint Toxicity of Chemical Mixtures Based on Luminescent Bacteria: A Systematic Review. Frontiers in Microbiology. 29. Ayub I, Nasir MS, Liu Y, Munir A, Yang F, Zhang Z. (2020). Performance improvement of solar bakery unit by integrating with metal hydride based solar thermal energy storage reactor. Renewable Energy. 30. Ayub I, Nasir MS, Liu Y, Munir A, Wu Z, Yang F, et al. (2020). Numerical modeling and performance comparison of high-temperature metal hydride reactor equipped with bakery system for solar thermal energy storage. International Journal of Hydrogen Energy. 31. Yuan M, Nasir MS, Guo H, Xu Z, Xu H, Yan W, Liao Z, Wang Y. (2019). *A 2.5 D Electrode System Constructed of Magnetic Sb-SnO₂ Particles and a PbO₂ Electrode and Its Electrocatalysis Application on Acid Red G Degradation*. Catalysts. 32. Nasir MS, Nasir A, Rashid H, Shah SHH. (2016). Spatial variability and long-term analysis of groundwater quality of Faisalabad industrial zone. Applied Water Science. 33. Nasir MS, Nasir A, Khan F-u-H, Saeed MM, Rashid H, Anwar S, Shah SHH. (2016). Predicting Long Term Trends Of Groundwater Quality In Faisalabad Using Stochastic Framework. Pakistan Journal of Agricultural Sciences. 34. Nasir A, Nasir MS, Shauket I, Anwar S, Ayub I. (2016). Impact of samanduri drain on water resources of Faisalabad. Advances in Environmental Biology. 35. Ayub, A Munir, A Ghafoor, W Amjad, Nasir MS. (2018). Solar Thermal Application for Decentralized Food Baking Using Scheffler Reflector Technology. Journal of Solar Energy Engineering. 36. Ayub, A Munir, W Amjad, A Ghafoor, Nasir MS. (2018). Energy- and exergy-based thermal analyses of a solar bakery unit. Journal of Thermal Analysis and Calorimetry. 37. Ali W, Nasir MS, Nasir A, Rashid H, Ayub I, Gillani SH, Latif MJ. (2018). Assessment of Carbon Footprints In Terms Of CO₂ of Diesel Generator. Earth Sciences Pakistan. 38. Farooqi ZUR, Nasir MS, Nasir A, Zeeshan N, Ayub I, Rashid H, Qamar MU, Sarwar A, Akram MA. (2017). Evaluation and analysis of traffic noise in different zones of Faisalabad – an industrial city of Pakistan. Geology, Ecology, and Landscapes. 专利 • 钯载氮化镓纳米线光电催化剂、其制备方法及应用（申请号：202411858536.7）