Coating field
High temperature resistant coating: It can form a coating on the surface of metals, ceramics and other materials, withstand high temperature environments, prevent oxidation and corrosion of materials at high temperatures, and improve the high temperature resistance of materials, such as for the protection of high-temperature components such as aircraft engines and gas turbines.
Anti corrosion coating: It has good chemical stability and corrosion resistance, and can effectively resist the erosion of chemical substances such as acids, alkalis, and salts. It is used on the surface of structures that are prone to corrosion, such as ships, bridges, and chemical equipment, to extend their service life.
Anti graffiti coating: forms an anti graffiti coating on the surface of transportation vehicles, buildings, etc., making the surface easy to clean and preventing graffiti and stains from adhering.
Self cleaning coating: can be used on surfaces such as photovoltaic cells to form a self-cleaning coating, utilizing its special surface properties to make dust, dirt, etc. easily washed away by rainwater, maintaining surface cleanliness and light absorption rate.
Ceramic materials field
Ceramic precursor: It is an important precursor material for preparing high-performance ceramics such as silicon nitride and silicon carbide. By high-temperature pyrolysis of inorganic polysilazane, high-purity and high-performance ceramic materials can be obtained for manufacturing ceramic cutting tools, ceramic bearings, ceramic based composite materials, etc.
Ceramic fiber preparation: Used for preparing ceramic fibers such as silicon nitride fibers, which have excellent properties such as high strength, high modulus, high temperature resistance, and chemical corrosion resistance. They can be used as reinforcement materials in aerospace, defense, and other fields.
Preparation of ceramic coating: Inorganic polysilazane is coated on the surface of the substrate material, and after curing and pyrolysis, a ceramic coating is formed, which can improve the surface hardness, wear resistance, and high temperature resistance of the substrate material. For example, preparing ceramic coatings on the surface of metal molds can improve the service life of the molds.
Semiconductor and Optoelectronic Fields
Insulation layer preparation: In semiconductor devices, it can be used as a low dielectric constant insulation material to isolate different circuit components, improve the performance and reliability of semiconductor devices, and reduce signal interference and leakage phenomena.
Optical waveguide preparation: In the field of optoelectronics, it can be used to prepare optical waveguides, optical fibers and other devices, which can achieve efficient transmission and processing of optical signals, and improve the performance and stability of optical devices.
Other fields
Ultra precision ceramic component adhesive: It can achieve strong bonding between ceramics, ceramics and metals at high temperatures, and is used for the assembly and repair of ultra precision ceramic components.
High temperature resistant composite material modification: used as an additive to modify high temperature resistant composite materials, improve their high temperature resistance, mechanical properties, and chemical stability, and expand their application range in high temperature environments.
Lithium battery electrolyte additive: can improve the performance of lithium battery electrolyte, enhance the safety, stability, and charge discharge performance of the battery.

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