Breakthroughs in fluorosilicone oil technology have driven innovations in multiple fields

1.The performance of new energy batteries has made a significant leap
The research team has developed a lithium metal battery electrolyte based on siloxane fluoride solvent. By optimizing the lithium solvation structure, it can achieve a stable cycle of 300 times at a current density of 1.0 mA/cm², significantly improving the full battery cycle life. This technology effectively inhibits the growth of lithium dendrites, forming a solid electrolyte interface film rich in LiF, providing key support for the development of high-energy-density batteries. Research shows that lithium-ion batteries made of fluorosilicon materials have a capacity retention rate of over 90% after 500 cycles, which is more than 20% higher than that of traditional batteries.

2. Breakthroughs have been made in the field of industrial protection
The new fluorosilicone rubber superhydrophobic anti-icing coating, through organic-inorganic hybrid technology, achieves excellent performance with a contact Angle greater than 150° and a tangential ice adhesion strength lower than 50kPa, and extends the icing time by more than 80 minutes. This material can be widely applied in fields such as power transmission lines and aviation equipment, significantly reducing maintenance costs under extreme weather conditions. Experimental data show that the adhesion of the coating reaches grade 0, and its impact resistance is 45-50kg · cm, effectively resisting wind and sand erosion as well as mechanical wear.

3. Safety upgrade of medical equipment
Medical-grade fluorosilicone oil has passed the ISO 10993 biocompatibility test. Its temperature resistance range covers -50 ℃ to 260℃, and it can withstand extreme environments such as high-pressure steam sterilization and dry heat disinfection. Its ultra-low friction coefficient and molecular stability increase the lubrication life of surgical instruments by three times, significantly reducing the risk of instrument jamming. Clinical feedback shows that after using this material, the return rate of surgical instruments has decreased by 60%, and the performance retention rate after high-temperature sterilization is over 95%.

4. Green manufacturing leads the transformation of industries
Through the transformation of the centralized exhaust gas treatment system, a certain enterprise has reduced the fluoride emission concentration to an extremely low level in the industry. At the same time, it has built a deep water treatment system to achieve 100% reuse of industrial wastewater. A breakthrough in the resource utilization technology of fluorogypsum has been made, and self-leveling and plastering gypsum products have been successfully developed. The annual solid waste processing capacity has reached tens of thousands of tons, providing a new path for the green transformation of the traditional chemical industry. In addition, the operation of rooftop distributed photovoltaic power generation projects has increased the proportion of clean energy used by enterprises to 15%, reducing carbon dioxide emissions by over a thousand tons annually.