【概况】

蒋浩然，天津大学机械工程学院教授、博士生导师，国家级高层次青年人才。2014年本科毕业于华中科技大学首届能源类实验班，2018年博士毕业于香港科技大学。一直致力于液流电池、锂离子电池、燃料电池、电解池等电化学能源系统基础科学和应用技术研究，截至2025年9月，已在Nature Communications、Energy & Environmental Science等能源类权威期刊发表SCI论文100余篇，论文总引用6600余次，h因子为50，申请/授权国家发明专利20余项，参与制定团体标准2项。主持XX科技创新项目、国家级高层次青年人才项目、国家自然科学基金面上项目、企业横向项目等20余项，承担了天津市首个液流电池储能系统应用示范。先后入选全球前2%顶尖科学家榜单（终身科技影响力）、香港科技专才培育计划、天津大学北洋英才学者计划等。担任中关村储能联盟液流电池储能技术专业委员会委员、机械工业教育协会新能源与储能工程专业教学委员会委员、天津市可再生能源学会储能分会秘书长、XX科技委XX主题办公室论证专家/专家组秘书、The Innovation等7个期刊编委/青年编委/客座编辑。 课题组经费充足、成果丰硕、气氛融洽。研究方向既立足于国家重大需求，又瞄准国际学术研究前沿。导师将在文献查阅、课题设计、实验操作、文章撰写、课题汇报等方面提供积极有效的指导，热忱欢迎储能、能动、化工、材料、环境、物理等相关专业的本科生、硕士生、博士生及博士后加入。

【教育背景】

2014.08–2018.08，香港科技大学，机械工程（能源技术方向），博士（导师：赵天寿 院士） 2010.09–2014.06，华中科技大学，热能与动力工程（能源类实验班），学士

【学术经历】

2022.09–至今，天津大学，国家储能技术产教融合创新平台，教授、博导 2021.06–至今，天津大学，机械工程学院，教授、博导 2020.10–2021.04，香港科技大学，赛马会高等研究院，博士后 2018.10–2020.10，香港科技大学，机械及航空航天系，博士后

【讲授课程】

1. 储能技术及应用 2. 工程热力学 3. 储能技术前沿（研究生） 4. 碳中和：能源动力系统（储能技术章节） 5. 储能微专业课-电化学储能技术前沿（液流电池章节） 6. 储能材料分析方法（成分和价键结构分析章节）

【教学成果】

指导学生参加大学生创新创业计划、节能减排大赛、挑战杯等活动，多次获得国家级和省部级奖项。指导本科生参与科研训练，并以第一作者发表SCI论文。与多家行业龙头企业共建产学研基地，开展“校企双导师制”联合培养，毕业生工程实践能力获企业高度认可。

【研究方向】

1. 液流电池长时储能 2. 动力电池热/能量管理 3. 电解水制氢与燃料电池 4. 热化学储能

【学术兼职】

1. 国际先进材料学会会士（Fellow of IAAM） 2. 中国机械工业教育协会新能源与储能工程专业教学委员会委员 3. 中关村储能产业技术联盟液流电池储能专委会委员 4. 中国内燃机学会特种发动机分会委员 5. 天津市可再生能源学会储能分会秘书长 6. 国际期刊The Innovation、International Journal of Mechanical System Dynamics青年编委

【科研项目及成果】

1. XX科技创新项目，储能XXX，2022/1–2023/6，400万元，主持。 2. 国家级高层次青年人才计划项目，2022/1–2024/12，200万元，主持。 3. 国家自然科学基金面上项目，基于热质传递强化的锌溴液流电池多孔电极内沉积过程定向调控，2026/1–2029/12，50万元，主持。 4. 国家自然科学基金青年科学基金项目（C类），液流电池多孔电极内局部电流密度分布特性和均匀化策略研究，2022/1–2024/12，30万元，主持。 5. 基础加强计划技术领域基金项目，XXX散热–发电一体化技术，2024/10–2026/9，60万元，主持。 6. 天津市自然科学基金重点项目，低成本高能量密度水系液流电池长时储能技术与应用，2023/10–2026/9，20万元，主持。 7. 天津市自然科学基金京津冀基础研究合作专项，锂金属电池界面多尺度热电力耦合输运机理及热失控抑制关键技术，2024/10–2027/9，20万元，主持。 8. 横向课题，XX液流电池储能系统的研发和应用，2024/11–2025/6，200万元，主持。 9. 横向课题，XX液流电池电堆研究，2024/9–2024/12，140万元，主持。 10. 横向课题，XX新型极板结构设计与性能研究，2024/6–2025/6，160万元，主持。 11. 横向课题，高性能XX液流电池开发，2023/1–2023/6，100万元，主持。 12. 横向课题，XX全钒液流电池流道部件结构设计，2025/9–2026/9，主持。 13. 横向课题，相变储热换热器结构优化及原理试验，2025/6–2026/6，主持。 14. 横向课题，液流电池XX电极框开发，2024/4–2024/6，主持。 15. 横向课题，XX光储充系统调研，2024/12 –2025/3，主持。 16. 天津大学一流学科交叉创新项目，液流电池长时储能系统能效提升技术研究，2023/11–2026/11，30万元，主持。 17. 天津大学“北洋学者英才计划”项目，2021/1–2023/12，150万元，主持。 18. 天津大学青年导师资助项目，2024/1–2024/12，主持。 19. 天津大学自主创新基金，高能量密度液流电池研究，2023/1–2023/12，主持。

【代表性论著】

1. Zihan Yu, Xiongjie Jia, Huan Gao, Ruihang Su, Xiaoyi Wang, Tianshou Zhao, Haoran Jiang*, Unlocking Interfacial Dynamic of Porous Electrode via Vertical-aligned Bismuth-nanosheet Decorating for Vanadium Redox Flow Batteries, Advanced Functional Materials, 35 (2025) 2420534. 2. Wei Wang, Ruixiang Guo, Aodi Zheng, Xiaorui Jin, Xiongjie Jia, Zhiwei Ren, Yangkai Han, Yeming Zhai, Xiaofen Liu, Haoran Jiang*, Yun Zhao*, Kai-Ge Zhou*, Meiling Wu*, Zhongyi Jiang*, Promoting in-situ stability of hydroxide exchange membranes by thermally conductive network for durable water electrolysis, Nature Communications, 16 (2025) 934. 3. Haoran Jiang*, Shitao Deng, Jing Sun, Tianshou Zhao, Quadruple-Functional Sulfate-Chloride Mixed Acid Electrolyte Enabling High-Performance Redox Flow Batteries with Operating Current Densities Exceeding 1000 mA cm-2, Chemical Engineering Journal, 521 (2025) 166778. 4. Houxi Liu, Yuhao Cai, Jingming Feng, Kui Jiao, Haoran Jiang*, Efficient Thermoelectric Conversion System Incorporating Thermocells for Low-grade Heat Harvesting in Proton Exchange Membrane Fuel Cell, Energy & Fuels, 39 (2025) 15729-15741. 5. Shupan Zhang, Lianfeng Ma, Yufan Wu, Mingyuan Xie, Wei Liu, Haoran Jiang*, Bingyao Du, Yingqiao Jiang*, Ling Wang, Lei Dai, Jing Zhu, Zhangxing He*, Constructing Structural Defects on Perovskite Surface to Accelerate Electrode Kinetics for Vanadium Redox Flow Batteries, Small, (2025) e06245. 6. Xiaohu Yang, Yang Liu, Renjing Liu, Xiaomin Tang*, Haoran Jiang*, Study on thermal storage characteristics of low-melting-point metal using rapid analysis model for shell-and-tube phase change heat storage, Thermal Science and Engineering Progress, 65 (2025) 103865. 7. Yuhao Cai, Huan Gao, Wei Xiao, Huijia Li, Tianshou Zhao, Haoran Jiang*, Toroidal thermocells for efficient low-grade heat harvesting, Energy Conversion and Management, 342 (2025) 120104. 8. Mingming Yin, Xiongjie Jia, Yukun Sun, Zhipeng Zhan, Tianshou Zhao*, Haoran Jiang*, Self-protecting interlocked electrodes for highly efficient and stable direct seawater electrolyzers, Journal of Materials Chemistry A, 13 (2025) 24753-24763. 9. Haoran Jiang*, Zihan Yu, Huan Gao, Tianshou Zhao, Coupled Transport and Electrochemical Characteristics in Redox Flow Batteries, The Innovation, 6 (8) (2025) 100912. 10. Jiuke Mu*, Lixue Yang, Nan Sheng, Yiyao Zhang, Yang Guo, Xiaofei Song*, Haoran Jiang*, Yanjun Zhang, Shengkai Zuo, Hao Zhang, Ai Bao Chai, Jianmin Li*, Hongzhi Wang, Advancing medical devices with soft actuators, The Innovation Materials, 3 (2025) 100112. 11. Xiaoyi Wang, Zihan Yu, Yitong Niu, Chee Keong Lee, Cheu Peng Leh, Haoran Jiang*, Recent Advances in Aqueous Manganese-based Flow Batteries, Current Opinion in Electrochemistry, 50 (2025) 101637. 12. Aodi Zheng, Huan Gao, Xiongjie Jia, Yuhao Cai, Xiaohu Yang, Qiang Zhu*, Haoran Jiang*, Deep learning-assisted design for battery liquid cooling plate with bionic leaf structure considering non-uniform heat generation, Applied Energy, 373 (2024) 123898. 13. Zimu Wang, Ruihang Su, Haoran Jiang*, Tianshou Zhao*, Understanding and enhancing the under-rib convection for flow-field structured vanadium redox flow batteries, International Journal of Heat and Mass Transfer, 230 (2024) 125789. 14. Dongrui Fan, Jingyao Gong, Shitao Deng, Han Yan, Qiang Zhu*, Haoran Jiang*, “Progress and challenges of zinc-iodine flow batteries: From energy storage mechanism to key components”, Journal of Energy Storage, 92 (2024) 112215. 15. Zihan Yu, Xiongjie Jia, Yuhao Cai, Ruihang Su, Qiang Zhu*, Tianshou Zhao*, Haoran Jiang*, “Electrolyte engineering for efficient and stable vanadium redox flow batteries”, Energy Storage Materials, 69 (2024) 103404. 16. Ruihang Su, Zimu Wang, Yuhao Cai, Jinhui Ying, Huijia Li, Tianshou Zhao*, Haoran Jiang*, “Scaling up flow fields from lab-scale to stack-scale for redox flow batteries”, Chemical Engineering Journal, 486 (2024) 149946. 17. Jingyao Gong, Jinhui Ying, Xiongjie Jia, Ruihang Su, Tianshou Zhao*, Haoran Jiang*, “Dendrite-Free Zinc Anode Enabled by Bifunctional Additive Coupling Electrostatic Shielding and Zincophilic Leveling”. Chemical Engineering Journal, 480 (2024) 148267. 18. Yuhao Cai, Xin Qian, Ruihang Su, Xiongjie Jia, Jinhui Ying, Tianshou Zhao*, Haoran Jiang*, “Thermo-electrochemical modeling of thermally regenerative flow batteries”. Applied Energy, 355 (2024) 122204. 19. H.R. Jiang, J. Sun, L. Wei, M.C. Wu, W. Shyy, T.S. Zhao*. “A high power density and long cycle life vanadium redox flow battery”. Energy Storage Materials, 24 (2020) 529-540. 20. H.R. Jiang, Ziheng Lu, M.C. Wu, Francesco Ciucci, T.S. Zhao*. “Borophene: A promising anode material offering high specific capacity and high rate capability for lithium-ion batteries”. Nano Energy, 23 (2016) 97-104. 21. H.R. Jiang, L. Wei, X.Z. Fan, J.B. Xu, W. Shyy, T.S. Zhao*. “A novel energy storage system incorporating electrically rechargeable liquid fuels as the storage medium”. Science Bulletin, 64 (2019) 270-280. 22. S.B. Wan#, H.R. Jiang#, Z.X. Guo, C.X. He, X.W. Liang, Ned Djilali*, T.S. Zhao*. “Machine Learning-Assisted Design of Flow Fields for Redox Flow Batteries”. Energy & Environmental Science, 15 (2022) 2874-2888. 23. H.R. Jiang, W. Shyy, L. Zeng, R.H. Zhang, T.S. Zhao*. “Highly efficient and ultra-stable boron-doped graphite felt electrodes for vanadium redox flow batteries”. Journal of Materials Chemistry A, 6 (2018) 13244-13253. 24. H.R. Jiang, W. Shyy, M.C. Wu, R.H. Zhang, T.S. Zhao*. “A bi-porous graphite felt electrode with enhanced surface area and catalytic activity for vanadium redox flow batteries”. Applied Energy, 233-234 (2019) 105-113. 25. H.R. Jiang, Y.K. Zeng, M.C. Wu, W. Shyy, T.S. Zhao*. “A uniformly distributed bismuth nanoparticle-modified carbon cloth electrode for vanadium redox flow batteries”. Applied Energy, 240 (2019) 226-235. 26. H.R. Jiang, W. Shyy, Y.X. Ren, R.H. Zhang, T.S. Zhao*. “A room-temperature activated graphite felt as the cost-effective, highly active and stable electrode for vanadium redox flow batteries”. Applied Energy, 233-234 (2019) 544-553. 27. H.R. Jiang, B.W. Zhang, J. Sun, X.Z. Fan, W. Shyy, T.S. Zhao*. “A gradient porous electrode with balanced transport properties and active surface areas for vanadium redox flow batteries”. Journal of Power Sources, 440 (2019) 227159. 28. L. Wei #, C. Xiong #, H.R. Jiang #, X.Z. Fan, T.S. Zhao*. “Highly catalytic hollow Ti3C2Tx MXene spheres decorated graphite felt electrode for vanadium redox flow batteries”. Energy Storage Materials, 25 (2020) 885-892. 29. Y.X. Ren #, H.R. Jiang #, C. Xiong, C. Zhao, T. S. Zhao*. “An in-situ encapsulation approach for polysulfide retention in lithium-sulfur batteries”. Journal of Materials Chemistry A, 8 (2020) 6902-6907. 30. J. Sun #, H.R. Jiang #, B.W. Zhang, C.Y.H. Chao, T.S. Zhao*. “Towards uniform distributions of reactants via the aligned electrode design for vanadium redox flow batteries”. Applied Energy, 259 (2020) 114198. 31. L. Wei #, X.Z. Fan #, H.R. Jiang #, K. Liu, M.C. Wu, T.S. Zhao*, “Enhanced cycle life of vanadium redox flow battery via a capacity and energy efficiency recovery method”. Journal of Power Sources, 478 (2020) 228725. 32. H.R. Jiang, M.C. Wu, Y.X. Ren, W. Shyy, T.S. Zhao*. “Towards a uniform distribution of zinc in the negative electrode for zinc bromine flow batteries”. Applied Energy, 213 (2018) 366-374. 33. H.R. Jiang, W. Shyy, M. Liu, Y.X. Ren, T.S. Zhao*. “Borophene and defective borophene as potential anchoring materials for lithium-sulfur batteries: a first-principles study”. Journal of Materials Chemistry A, 6 (2018) 2107-2114. 34. Y.X. Ren #, H.R. Jiang #, T.S. Zhao*, L. Zeng, C. Xiong. “Remedies of capacity fading in room-temperature sodium-sulfur batteries”. Journal of Power Sources, 396 (2018) 304-313. 35. H.R. Jiang, W. Shyy, M.C. Wu, L. Wei, T.S. Zhao*. “Highly active, bi-functional and metal-free B4C-nanoparticle-modified graphite felt electrodes for vanadium redox flow batteries”. Journal of Power Sources, 365 (2017) 34-42. 36. H.R. Jiang, T.S. Zhao*, Y.X. Ren, R.H. Zhang, M.C. Wu. “Ab initio prediction and characterization of phosphorene-like SiS and SiSe as anode materials for sodium-ion batteries”. Science Bulletin, 62 (2017) 572-578. 37. H.R. Jiang, W. Shyy, M. Liu, L. Wei, M.C. Wu, T.S. Zhao*. “Boron phosphide monolayer as a potential anode material for alkali metal-based batteries”. Journal of Materials Chemistry A, 5 (2017) 672-679. 38. H.R. Jiang, M.C. Wu, X.L. Zhou, X.H. Yan, T.S. Zhao*. “Computational insights into the effect of carbon structures at the atomic level for non-aqueous sodium-oxygen batteries”. Journal of Power Sources, 325 (2016) 91-97. 39. H.R. Jiang, T.S. Zhao*, M. Liu, M.C. Wu, X.H. Yan. “Two-dimensional SiS as a potential anode material for lithium-based batteries: A first-principles study”. Journal of Power Sources, 331 (2016) 391-399. 40. H.R. Jiang, T.S. Zhao*, L. Shi, P. Tan, L. An. “First-Principles Study of Nitrogen-, Boron-Doped Graphene and Co-Doped Graphene as the Potential Catalysts in Nonaqueous Li-O2 Batteries”. Journal of Physical Chemistry C, 120 (2016) 6612-6618. 41. H.R. Jiang, P. Tan, M. Liu, Y.K. Zeng, T.S. Zhao*. “Unraveling the Positive Roles of Point Defects on Carbon Surfaces in Nonaqueous Lithium-Oxygen Batteries”. Journal of Physical Chemistry C, 120 (2016) 18394-18402. 42. X.H. Yan #, H.R. Jiang #, G. Zhao, L. Zeng, T.S. Zhao*. “Preparations of an inorganic-framework proton exchange nanochannel membrane”. Journal of Power Sources, 326 (2016) 466-475.