Biography
Dr Xusheng Wang is currently a Marie Skłodowska-Curie Fellow at the University of Oxford. He received his Ph.D. from Shanghai Jiao Tong University in 2023, where he was recognized as one of the Outstanding Graduates of Shanghai. His research focuses on intelligent control and process modelling of advanced energy systems, with particular emphasis on hydrogen storage materials and systems, as well as the application of machine learning to enhance performance prediction in complex energy processes.
Dr Wang actively contributes to the academic community through peer review, serving as a reviewer for leading journals including Materials Today, Applied Energy, Energy, Journal of Power Sources, Journal of Energy Storage, Fuel, Applied Thermal Engineering, and Energy Conversion & Management.
Most Recent Publications
Developing Oxygen Vacancy Rich Perovskite for Broad‐Spectrum‐Responsive Photothermal Assisted Photocatalytic Dehydrogenation of MgH <sub>2</sub>
Developing Oxygen Vacancy Rich Perovskite for Broad‐Spectrum‐Responsive Photothermal Assisted Photocatalytic Dehydrogenation of MgH <sub>2</sub>
MOFs derived Ni-Mn bimetal nano-catalysts with enhanced hydrogen pump effect for boosting hydrogen sorption performance of MgH2
MOFs derived Ni-Mn bimetal nano-catalysts with enhanced hydrogen pump effect for boosting hydrogen sorption performance of MgH2
Roadmap Toward the Production, Storage, Transportation, and Applications of Green Hydrogen
Roadmap Toward the Production, Storage, Transportation, and Applications of Green Hydrogen
Enhancing hydrogen sorption performances of MgH2 by in-situ introduction of molybdate derived FeMo nano catalysts
Enhancing hydrogen sorption performances of MgH2 by in-situ introduction of molybdate derived FeMo nano catalysts
Challenges and opportunities in hydrogen storage and transportation: A comprehensive review
Challenges and opportunities in hydrogen storage and transportation: A comprehensive review
Research Interests
- Thermal energy storage
- Hydrogen energy storage, conversion & management
- Intelligent control technology
- Machine learning
Current Research Project
Synergistic integration and efficient operation of thermochemical energy storage-assisted magnesium hydrides-based hydrogen storage systems.
Research Group
Related Academics
Most Recent Publications
Developing Oxygen Vacancy Rich Perovskite for Broad‐Spectrum‐Responsive Photothermal Assisted Photocatalytic Dehydrogenation of MgH <sub>2</sub>
Developing Oxygen Vacancy Rich Perovskite for Broad‐Spectrum‐Responsive Photothermal Assisted Photocatalytic Dehydrogenation of MgH <sub>2</sub>
MOFs derived Ni-Mn bimetal nano-catalysts with enhanced hydrogen pump effect for boosting hydrogen sorption performance of MgH2
MOFs derived Ni-Mn bimetal nano-catalysts with enhanced hydrogen pump effect for boosting hydrogen sorption performance of MgH2
Roadmap Toward the Production, Storage, Transportation, and Applications of Green Hydrogen
Roadmap Toward the Production, Storage, Transportation, and Applications of Green Hydrogen
Enhancing hydrogen sorption performances of MgH2 by in-situ introduction of molybdate derived FeMo nano catalysts
Enhancing hydrogen sorption performances of MgH2 by in-situ introduction of molybdate derived FeMo nano catalysts
Challenges and opportunities in hydrogen storage and transportation: A comprehensive review
Challenges and opportunities in hydrogen storage and transportation: A comprehensive review
Most Recent Publications
Developing Oxygen Vacancy Rich Perovskite for Broad‐Spectrum‐Responsive Photothermal Assisted Photocatalytic Dehydrogenation of MgH <sub>2</sub>
Developing Oxygen Vacancy Rich Perovskite for Broad‐Spectrum‐Responsive Photothermal Assisted Photocatalytic Dehydrogenation of MgH <sub>2</sub>
MOFs derived Ni-Mn bimetal nano-catalysts with enhanced hydrogen pump effect for boosting hydrogen sorption performance of MgH2
MOFs derived Ni-Mn bimetal nano-catalysts with enhanced hydrogen pump effect for boosting hydrogen sorption performance of MgH2
Roadmap Toward the Production, Storage, Transportation, and Applications of Green Hydrogen
Roadmap Toward the Production, Storage, Transportation, and Applications of Green Hydrogen
Enhancing hydrogen sorption performances of MgH2 by in-situ introduction of molybdate derived FeMo nano catalysts
Enhancing hydrogen sorption performances of MgH2 by in-situ introduction of molybdate derived FeMo nano catalysts
Challenges and opportunities in hydrogen storage and transportation: A comprehensive review
Challenges and opportunities in hydrogen storage and transportation: A comprehensive review
