Ensure long-term performance and durability of your hydrogen production systems
Electrocatalyst stability testing is essential for developing efficient, long-lasting water electrolysis systems for clean hydrogen production. As new materials emerge, evaluating catalyst durability under realistic conditions becomes critical. Unlike traditional three-electrode setups, flow electrolyzers give accurate, reproducible performance testing.
This application note provides practical guidelines for conducting electrochemical stability tests and highlights the critical role of electrocatalyst durability in advancing hydrogen production research and real-world applications.
Why Electrocatalyst Stability Testing Matters in Hydrogen Production Research
This application note supports scientists, energy researchers and fuel cell developers aiming to accelerate hydrogen innovation through structured, accurate evaluation. It aids them:
- Gain comprehensive evaluation of water electrolysis efficiency
- Accurately identify and quantify electrocatalyst degradation
- Apply durability testing protocols to assess long-term catalyst stability
- Leverage Electrochemical Impedance Spectroscopy (EIS) data to obtain accurate measurements of charge transfer and resistance
- Benchmark testing methods for Proton Exchange Membrane (PEM) and Alkaline Water Electrolysis (AWE) systems
Ready to master the electrocatalyst evaluation techniques?
Download the Application Note now