Surface-modified mesoporous silica nanorods for the highly aging resistance rubber through controlled release of antioxidant

The migration and blooming of antioxidant molecules in the field of anti-aging rubber is a challenge, where developing novel nanocarriers loaded with antioxidant molecules can solve the above problem. In this article, the surface thiol functionalized mesoporous silica nanorods loaded with antioxidant N-(1,3-dimethyl)butyl-N'-phenyl-p-phenylenediamine (MSN-SH-4020) was synthesized to avoid the blooming of antioxidants and then to improve the anti-aging performance of styrene-butadiene rubber (SBR). The migration of antioxidant molecules could be limited by encapsulating antioxidant in the pore of mesoporous silica nanorods, and the contend of antioxidant in the SBR reaches up to 1.33 wt%. The sustained release of antioxidant molecules from the pore increases the effective time of action of the antioxidant. After 168 hours of thermal oxidative aging test at 100 degrees C, styrene-butadiene rubber with 10 wt % surface thiol functionalized mesoporous silica nanorods loaded with 4020 (MSN-SH-4020) shows preservation of mechanical properties without blooming. This approach is highly perspective in many applications, such as long-life sealing rubber and conveyor belts.

Automated summary

This study focuses on a novel nanocarrier, surface thiol functionalized mesoporous silica nanorods, that can limit the migration of antioxidants and enhance the anti-aging performance of rubber. Encapsulating antioxidants in the pores of nanocarriers can increase the effective action time of antioxidants. This approach shows great potential in applications such as sealing rubber and conveyor belts.