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【2024-16】组内论文在《Polymer Degradation and Stability》发表,祝贺刘可萌

Kemeng Liu, Xueying Wen, Huiyue Wang, Huajian Liu, Lijie Liu, Ran Niu, Tao Tang, Nan Yao*, Ruikun Pan*, Jiang Gong*

Catalytic upcycling of silicone rubber by AlCl3 at low temperature

Polymer Degradation and Stability 232 (2025) 111117. (IF2024 = 6.3)

Chemical recycling of silicone rubber (SR) waste into valuable products has aroused ever-increasing attention; however, the development of a green, efficient degradation strategy for silicone rubber remains challenging. In this work, we report the catalytic upcycling of silicone rubber by AlCl3 to produce SiO2 under atmospheric environment. The optimized AlCl3/SR mass ratio, reaction temperature and time are 0.75, 280 ℃ and 120 min, respectively. The maximum yield of SiO2 is 96 %. The as-prepared SiO2 displays irregular spherical agglomerates with a particle size of 20–30 nm and bears rich micropores/mesopores/macropores. The result of variable-temperature Fourier-transform infrared spectroscopy proves that AlCl3 promotes the fracture of Si-O in SR during heating. According to density functional theory, the addition of AlCl3 leads to a decrease in the bond dissociation energy of Si-O and Si-C. The strategy achieves the green, efficient catalytic degradation of silicone rubber waste.