Recently considerable attention has been devoted to heterogeneous catalysts. Generally, heterogeneous catalysts offer several advantages such as mild reaction conditions, high throughput and ease of work-up procedures. Among the heterogeneous catalysts investigated, polymeric mesoporous graphitic carbon nitrides (g-C3N4) has attracted much attention recently due to strong van der Waals interactions between the layers, g-C3N4 is chemically stable against acid, base and organic solvents and also thermogravimetric analysis (TGA) reveals that g-C3N4 is thermally stable even in air up to 600 oC, which can be attributed to its aromatic C-N heterocycles. More importantly, g-C3N4 is only composed of two earth-abundant elements: carbon and nitrogen. This not only suggests that it can be easily prepared at low cost, but also its properties can be tuned by simple strategies without significant alteration of the overall composition. The last approach is considered as the most efficient way to design of high-performance heterogeneous catalysts utilizing the g-C3N4 as catalyst support. An interesting phenomenon is that the modification is mainly focused on metal oxides. Zirconia (ZrO2) is a physically rigid material with chemical inertness. It has high resistance against attacks by acids, alkalis, oxidants and reductants. In this study, ZrO2/g-C3N4 hybrid nanocomposite has been shown to be an excellent catalyst for the conversion of alcohols and phenols into their corresponding trimethylsilyl ethers with hexamethyldisilazane (HMDS) under solvent-free condition and for the synthesis of a-aminophosphonates. In addition, the ZrO2/g-C3N4 can be easily recycled after separation from the reaction mixture without considerable loss in catalytic activity.
ZrO2/g-C3N4 hybrid nanocomposite: an efficient and eco-friendly recyclable catalyst for the trimethylsilyl protection of hydroxyl groups and synthesis of a-aminophosphonates
Published: 14 November 2018 by MDPI AG in Proceedings of The 22nd International Electronic Conference on Synthetic Organic Chemistry in The 22nd International Electronic Conference on Synthetic Organic Chemistry session General Organic Synthesis
MDPI AG, 10.3390/ecsoc-22-05652
Keywords: nitrogen, nanocomposite, trimethylsilyl, synthesis of a aminophosphonates, ZrO2/g C3N4 hybrid