Background
Hydrogen, as a core carrier of clean energy, requires efficient and safe storage and transportation technologies for large-scale application. Solid-state hydrogen storage materials have attracted wide attention due to their high volumetric hydrogen density and safety.
Research Areas
Metal-Based Solid-State Hydrogen Storage
Development of Ti- and Mg-based solid-state hydrogen storage materials:
- Optimization of hydrogen storage capacity and cycling stability in titanium alloys
- Catalytic modification for low-temperature dehydrogenation of Mg-based materials
- Effects of alloy composition and microstructure on hydrogen storage performance
Flexible Non-Metallic Hydrogen Transport Pipelines
Research on flexible non-metallic pure hydrogen transport pipelines:
- Development of graphene-modified PE (polyethylene) pipe materials
- Evaluation of hydrogen permeation resistance
- Successfully applied in petroleum associated gas transport
- Led the development of multiple group standards
Representative Achievements
- Graphene-modified PE pipe materials applied in petroleum associated gas transport
- Led the development of multiple group standards