On September 26, 2025, Shanghai - At the recent "2025 Organic Silicon Material Innovation and Application Summit", a new type of low volatility, high temperature resistant ethyl silicone oil attracted industry attention. This product uses molecular structure optimization technology to reduce the volatile organic compound (VOC) content to 1/5 of traditional products, while expanding its temperature resistance range to -60 ℃ to 250 ℃, providing a better solution for high-end scenarios such as new energy vehicle battery module packaging and 5G communication equipment heat dissipation.


Technological Breakthrough: The Leap from 'Available' to 'Must Choose'
Traditional ethyl silicone oil is limited in applications such as precision electronics and biomedicine due to its high volatility and insufficient temperature resistance. The newly released product significantly improves the thermal stability and chemical inertness of the material by introducing a nanoscale siloxane cross-linking structure. Experimental data shows that after working continuously for 72 hours at a high temperature of 200 ℃, the quality loss rate is less than 0.3%, far below the industry standard of 2%.
This breakthrough solves the pain points of short material life and poor reliability in high-end manufacturing, "said the R&D director of an international electronics company." We have included this product in the core material list of the next generation server cooling system


Green transformation: low-carbon technology leads industry upgrading
In addition to performance improvement, the production process of this ethyl silicone oil has also undergone significant innovation. Through catalytic closed-loop reaction technology, the wastewater discharge during the production process is reduced by 60%, the exhaust gas recovery rate reaches 98%, and the carbon emissions per unit product are reduced by 40% compared to traditional processes. Industry experts point out that with the advancement of global carbon neutrality goals, such low-carbon materials will accelerate the replacement of traditional high pollution products, and the market size is expected to exceed 8 billion yuan by 2027.