Publications, Activities, and Awards
- A Numerical Study on the Impact of Low Electronic Conductivity on PEMWE Electrolyser Performance
- Analysis of Inkjet Printed Catalyst Coated Membranes for Polymer Electrolyte Electrolyzers
- Analysis of Inkjet Printed Electrodes for Polymer Electrolyte Electrolysis
- Characterising PEMWE performance: a numerical study on the impact of ACL permeability and electronic conductivity
- Determination of PEFC Gas Diffusion Layer and Catalyst Layer Porosity Utilizing Archimedes Principle
- Good Practices and Limitations of the Hydrogen Pump Technique for Catalyst Layer Protonic Conductivity Estimation
- Improved Polymer Electrolyte Membrane Water Electrolyzer Performance by Using Carbon Black as a Pore Former in the Anode Catalyst Layer
- Measurement of Ionic Conductivity of PEM Water Electrolyzer Electrodes
- Measurement of the Protonic and Electronic Conductivities of PEM Water Electrolyzer Electrodes
- Numerical Study of the Impact of Two-Phase Flow in the Anode Catalyst Layer on the Performance of Proton Exchange Membrane Water Electrolysers
- Reducing PEM Water Electrolysis Anode Catalyst Layer Loading: Impact of Layer Conductivity and Activity
- Transient, multi-scale, multi-phase analysis of polymer electrolyte fuel cells and electrolyzers
- Understanding the physical phenomena limiting the inkjet printed PEM water electrolyzer performance