Centre for Sustainable and Circular Technologies, University of Bath, Claverton Down, BA2 7AY, Bath, UK.
Chemistry. 2020 Jun 10;26(33):7405-7415. doi: 10.1002/chem.201905561. Epub 2020 May 8.
The selective catalytic synthesis of limonene-derived monofunctional cyclic carbonates and their subsequent functionalisation via thiol-ene addition and amine ring-opening is reported. A phosphotungstate polyoxometalate catalyst used for limonene epoxidation in the 1,2-position is shown to also be active in cyclic carbonate synthesis, allowing a two-step, one-pot synthesis without intermittent epoxide isolation. When used in conjunction with a classical halide catalyst, the polyoxometalate increased the rate of carbonation in a synergistic double-activation of both substrates. The cis isomer is shown to be responsible for incomplete conversion and by-product formation in commercial mixtures of 1,2-limomene oxide. Carbonation of 8,9-limonene epoxide furnished the 8,9-limonene carbonate for the first time. Both cyclic carbonates underwent thiol-ene addition reactions to yield linked di-monocarbonates, which can be used in linear non-isocyanate polyurethanes synthesis, as shown by their facile ring-opening with N-hexylamine. Thus, the selective catalytic route to monofunctional limonene carbonates gives straightforward access to monomers for novel bio-based polymers.
报道了柠檬烯衍生的单官能环状碳酸酯的选择性催化合成及其随后通过硫醇-烯加成和胺开环进行的功能化。用于柠檬烯 1,2-位环氧化的磷钨酸盐多金属氧酸盐催化剂也显示出在环状碳酸酯合成中的活性,允许在不间歇分离环氧化物的情况下进行两步一锅合成。当与经典卤化物催化剂一起使用时,多金属氧酸盐通过对两种底物的协同双重活化来增加碳酸化的速率。顺式异构体负责商业混合物 1,2-柠檬烯氧化物中不完全转化和副产物的形成。8,9-柠檬烯环氧化物的碳酸化首次提供了 8,9-柠檬烯碳酸酯。两种环状碳酸酯均经历了硫醇-烯加成反应,生成了连接的二碳酸单酯,通过与 N-己基胺的开环反应可用于线性非异氰酸酯聚氨酯的合成,如易于开环所示。因此,单官能柠檬烯碳酸酯的选择性催化路线为新型生物基聚合物的单体提供了直接途径。
