Polysilazane has broad application prospects in the field of new energy vehicles, mainly reflected in the following aspects:
Battery system
Electrode binder: Polysilazane can be used as a binder for lithium-ion battery electrode materials. With good bonding performance and chemical stability, it can enhance the structural stability of electrode materials, reduce electrode detachment and powdering during charging and discharging processes, thereby extending the battery's service life and improving its cycling performance.
Solid electrolyte: Polysilazane is expected to be used for the preparation of solid electrolytes after modification and other treatments. It has certain ion conductivity and good chemical stability, which can improve the safety of batteries, solve the problems of leakage and flammability of traditional liquid electrolytes, and may also enhance the energy density and charge discharge performance of batteries.
Battery packaging: By utilizing the excellent electrical properties and thermal stability of polysilazane, battery modules can be packaged. It can provide good electrical insulation to prevent internal short circuits in the battery, while also playing a certain role in heat dissipation, helping the battery work within a suitable temperature range, and improving the safety and reliability of the battery.
Thermal management system
Heat dissipation coating: Polysilazane can form a heat dissipation coating on the surface of heating components such as battery modules, motors, and electronic control units in new energy vehicles. This coating has good thermal conductivity, which can quickly dissipate the heat generated by the components, effectively reduce the working temperature of the components, improve their performance and service life, and ensure that the key components of new energy vehicles operate in an efficient and stable state.
Thermal insulation material: Polysilazane can be thermally decomposed at high temperatures to obtain ceramic materials, which can be used to prepare thermal insulation materials for isolating battery compartments from other components, preventing heat transfer, avoiding battery overheating, improving battery safety and vehicle thermal management efficiency.
Vehicle body and structural components
Lightweight materials: Polysilazane can be used to prepare high-performance composite materials, effectively reducing the weight of the vehicle while ensuring its strength and stiffness. This helps to improve the range of new energy vehicles, reduce energy consumption, and enhance the overall performance of the vehicle.
Surface protective coating: Polysilazane coating has excellent corrosion resistance and oxidation resistance, which can be used for the protection of the vehicle surface, preventing the vehicle from being corroded and oxidized by the external environment, extending the service life of the vehicle, and improving the appearance quality and aesthetics of the vehicle.
Electronic and electrical systems
Insulation material: Polysilazane has excellent electrical insulation properties, making it suitable for manufacturing insulation components in new energy vehicle electronic equipment, such as insulation layers for wires and cables, insulation coatings for circuit boards, etc. It can effectively prevent faults such as leakage and short circuits, ensuring the safe operation of electronic and electrical systems.
Electromagnetic shielding material: By special treatment and modification of polysilazane, it can possess electromagnetic shielding properties and be used to prepare electromagnetic shielding materials. It can effectively block electromagnetic interference, ensure normal communication and operation between electronic devices in the vehicle, and improve the electromagnetic compatibility of the entire vehicle.

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