Adaptive zwitterionic polysilazane coatings at South China University of Technology: Professor Ma Chunfeng's team at South China University of Technology has designed an adaptive zwitterionic polysilazane coating with mechanical robustness, high transparency, and broad spectrum anti adhesion properties, which was published in the journal Advanced Materials. This coating combines low surface energy fluorine groups with hydrolysis induced zwitterionic precursors, allowing fluorine groups to accumulate on the surface in the air, exhibiting resistance to oil stains and graffiti; Underwater, the zwitterionic layer is rearranged, endowing the coating with resistance to biofouling, underwater oil adhesion, and scaling, as well as 7H hardness and excellent flexibility.

Polysilazane for improving the performance of sodium ion batteries: Research has found that polysilazane can be combined with the positive electrode material of sodium ion batteries to enhance the electronic conductivity and structural stability of the positive electrode material, thereby improving the charge discharge performance and cycle life of sodium ion batteries. Adding an appropriate amount of polysilazane to the electrolyte of sodium ion batteries can improve the performance of the electrolyte, such as increasing ion conductivity, reducing viscosity, etc. It can also form a stable SEI film on the electrode surface, suppress side reactions, and improve the cycling performance and safety of the battery.

Room termperature curing polysilazane, pls check IOTA 9150, IOTA 9150K. 
High termperature curing polysilazane, pls check IOTA 9108, IOTA 9118.