The silylation of crystalline TiO2P25, commonly used for photocatalytic degradation of pollutants, results in an exceptionally selective catalyst for the aerobic limonene epoxidation to 1,2-limonene oxide under solar light irradiation. The hypothesized mechanism involves the singlet oxygen generated through energy transfer from the excited TiO2to adsorbed O2molecules. The reaction product is the valued precursor of bio-based poly(limonene carbonate), a thermoplastic polymer of superior thermal and optical properties whose industrial production is in need of an efficient green synthesis of limonene oxide.
Ciriminna, R., Parrino, F., De Pasquale, C., Palmisano, L., Pagliaro, M. (2018). Photocatalytic partial oxidation of limonene to 1,2 limonene oxide. CHEMICAL COMMUNICATIONS, 54(8), 1008-1011 [10.1039/c7cc09788c].
Photocatalytic partial oxidation of limonene to 1,2 limonene oxide
Parrino, Francesco
;De Pasquale, Claudio;Palmisano, Leonardo;
2018-01-01
Abstract
The silylation of crystalline TiO2P25, commonly used for photocatalytic degradation of pollutants, results in an exceptionally selective catalyst for the aerobic limonene epoxidation to 1,2-limonene oxide under solar light irradiation. The hypothesized mechanism involves the singlet oxygen generated through energy transfer from the excited TiO2to adsorbed O2molecules. The reaction product is the valued precursor of bio-based poly(limonene carbonate), a thermoplastic polymer of superior thermal and optical properties whose industrial production is in need of an efficient green synthesis of limonene oxide.
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