Contact Dr Siqi Wang
Background
Siqi Wang received her Diplôme d'Ingénieur (postgraduate degree in Engineering) in Process Engineering from the University of Technology of Compiègne (France) in 2020. She then moved on to complete her MSc in Advanced Chemical Engineering and PhD in Energy and Sustainability at Cranfield University. Her PhD thesis is titled "Development of bimetallic catalysts for (sorption-enhanced) steam methane reforming". Currently, Siqi is working as a Research Fellow in Chemical Engineering at Cranfield University.
Research opportunities
Heterogeneous catalysis; Hydrogen; Ammonia; Microkinetic Modelling; Density Functional Theory; Machine Learning
Current activities
Siqi is currently working on an EPSRC-funded project to investigate the performance of self-induced electrochemical promotion catalysts for ammonia combustion.
Publications
Articles In Journals
- Yang G, Wang S, Potter A & Sumner J. (2026). Investigating the role of grain boundary hydrogen in dual atmosphere effects for solid oxide cells interconnect applications. Corrosion Science, 258
- Wang S, Shen Z, Osatiashtiani A, Nabavi SA & Clough PT. (2025). Experimental and DFT study of (sorption-enhanced) steam methane reforming over bimetallic Ni-Cu catalysts. Fuel, 381, Part D
- Soman AKV, Wang S, Shen Z & Zhu M. (2025). Process modelling and thermodynamic analysis of hydrogen production through chemical looping ammonia cracking. Sustainable Energy & Fuels
- Wang S, Ibrahim Muhammad H, Shen Z & Zhu M. (2025). Fuel-rich ammonia catalytic combustion on gadolinium-doped ceria (GDC) supported copper oxide catalyst. Combustion Science and Technology, ahead-of-print(ahead-of-print)
- Wang S, Saravan S, Kasarapu K & Clough PT. (2024). High-throughput screening of sulfur-resistant catalysts for steam methane reforming using machine learning and microkinetic modeling. ACS Omega, 9(10)
- Wang S, Shen Z, Osatiashtiani A, Nabavi SA & Clough PT. (2024). Ni-based bimetallic catalysts for hydrogen production via (sorption-enhanced) steam methane reforming. Chemical Engineering Journal, 486
- Wang S & Nabavi SA. (2023). A review on bi/polymetallic catalysts for steam methane reforming. International Journal of Hydrogen Energy, 48(42)