In today's rapidly developing electronic and electrical era, polysilazane, with its unique performance advantages, has played an irreplaceable role in many segmented fields and has become one of the key elements to ensure the high-performance operation of electronic and electrical equipment.
Let's first look at the insulation materials. Electronic components require a stable and reliable insulation environment during operation to ensure the normal operation of the circuit and prevent faults such as leakage and short circuits. Polysilazane has excellent electrical insulation properties due to its unique properties such as silicon nitrogen bonds in its molecular structure. Whether inside tiny chips or in large electrical equipment, it can be used as an insulating coating or packaging material to showcase its capabilities. For example, in integrated circuit chips, polysilazane can form a thin insulation layer in key areas such as the metal wiring layer of the chip, accurately isolating each circuit unit, allowing current to flow steadily according to the designed path, avoiding short circuit risks caused by electronic migration and other reasons, greatly improving the stability and reliability of the chip, and ensuring that electronic devices such as smartphones and computers can handle various complex computing tasks stably. In large electrical equipment such as transformers and motors, insulation sleeves and paints made of polysilazane can withstand high voltage, effectively block current leakage, ensure the safety of equipment under long-term high load operation, and provide strong support for power transmission and industrial production.
Polysilazane plays a crucial role in the semiconductor manufacturing process. With the continuous development of semiconductor technology towards smaller processes and higher performance, the requirements for material accuracy and performance in the manufacturing process are becoming increasingly high. Polysilazane can be used to manufacture photoresist. In the photolithography process, its unique photosensitive properties and good resolution can accurately form the required patterns on substrates such as silicon wafers, laying the foundation for subsequent etching, ion implantation, and other processes. Moreover, it can also serve as an etching barrier layer, accurately protecting areas that do not need to be etched during the etching process, ensuring that the microstructure of semiconductor chips can be precisely constructed according to design requirements, thereby improving the accuracy and efficiency of chip manufacturing, helping to produce chips with superior performance and more powerful functions, and meeting the urgent demand for high-performance chips in many high-end fields such as consumer electronics, artificial intelligence, and big data.
The field of electronic packaging also relies on the assistance of polysilazane. Electronic devices will face various external environmental influences in practical use, such as moisture, dust, chemicals, and frequent temperature changes. Polysilazane, as a packaging material, can tightly wrap around the internal circuits of electronic devices, forming a relatively sealed protective space. It can not only block the entry of external moisture, prevent circuits from short circuiting or corrosion due to moisture, but also resist the erosion of dust and chemicals, ensuring the cleanliness and stability of electronic devices. At the same time, polysilazane also has certain heat dissipation properties, which can timely conduct out the heat generated during the operation of electronic devices, avoiding device performance degradation or even damage caused by overheating. Moreover, in some situations where external forces need to be buffered, such as when portable electronic devices are hit or dropped, polysilazane packaging materials can also play a buffering role, reducing the impact on internal circuits, further improving the reliability and service life of electronic devices, and enabling electronic devices to operate stably in complex and changing environments for a long time.
It can be said that the comprehensive application of polysilazane in the field of electronics and electrical engineering provides a solid material foundation for the vigorous development of the electronics industry, promoting various electronic and electrical equipment to continuously move towards miniaturization, intelligence, and efficiency.

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