High practicality surface modification technology for enhancing hydrogen production via water electrolysis and solid-state hydrogen storage efficiency
This technology is the application of non-precious metal "atomic layer thin films" and "low-dimensional nanocomposites" to modify the surfaces of crucial components in water electrolysis hydrogen production and solid-state hydrogen storage, optimizing the efficiency of water splitting and kinetics of (de)hydrogenation reactions. This includes modifying the electrocatalyst electrode and alkaline anion exchange membrane (AEM) for water electrolysis and Mg-based alloy powders for hydrogen storage.
Dual-function non-platinum electrocatalyst for hydrogen and oxygen pro duction via water splitting
Renewable hydrogen economy- R&D of electrolysis energy storage and application of green hydrogen industry-academia consortium project
Portable in situ/operando optical microscopy technology for electrode reactions detection and applied in developing advanced high-performance zinc secondary batteries
Advanced high-entropy nanomaterial fabrication technology for hydrogen production from seawater splitting
Technology maturity:Prototype
Exhibiting purpose:Display of scientific results
Trading preferences:Negotiate by self
Coming soon!