Kinetic analysis was used as a tool for rational optimization of a catalytic, direct substitution of alcohols to enable the selective formation of unsymmetrical ethers, thioethers, and Friedel-Crafts alkylation products using a moisture-tolerant and commercially available zirconium complex (2 to 8 mol%). Operating in air and in the absence of dehydration techniques, the protocol furnished a variety of products in high yields, including glycosylated alcohols and sterically hindered ethers. In addition, the kinetic studies provided mechanistic insight into the network of parallel transformations that take place in the reaction, and helped to elucidate the nature of the operating catalyst.
Zirconium-catalysed direct substitution of alcohols: enhancing the selectivity by kinetic analysis / Margarita, Cristiana; Villo, Piret; Tuñon, Hernando; Dalla-Santa, Oscar; Camaj, David; Carlsson, Robin; Lill, Malin; Ramström, Anja; Lundberg, Helena. - In: CATALYSIS SCIENCE & TECHNOLOGY. - ISSN 2044-4753. - 11:22(2021), pp. 7420-7430. [10.1039/d1cy01219c]
Zirconium-catalysed direct substitution of alcohols: enhancing the selectivity by kinetic analysis
Margarita, CristianaPrimo
;
2021
Abstract
Kinetic analysis was used as a tool for rational optimization of a catalytic, direct substitution of alcohols to enable the selective formation of unsymmetrical ethers, thioethers, and Friedel-Crafts alkylation products using a moisture-tolerant and commercially available zirconium complex (2 to 8 mol%). Operating in air and in the absence of dehydration techniques, the protocol furnished a variety of products in high yields, including glycosylated alcohols and sterically hindered ethers. In addition, the kinetic studies provided mechanistic insight into the network of parallel transformations that take place in the reaction, and helped to elucidate the nature of the operating catalyst.| File | Dimensione | Formato | |
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