A. Ramazani, A. Farshadi, A. Mahyari, F. Sadri, S. Joo, P. Asiabi, S. Taghavi, Nahid Dayyani, H. Ahankar
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引用次数: 10
摘要
A B S T R A C T:三苯基膦与乙基酯反应产生的高活性的1:1中间体被氮唑嘌呤、咪唑或茶碱等nh酸质子化,形成乙烯基三苯基膦盐,该盐与共轭碱发生迈克尔加成反应生成磷酰化物。发现二氧化硅纳米颗粒(通过稻壳热分解制备二氧化硅NPs)在无溶剂条件下(90℃,30 min)催化磷酰化物转化为电子差的n-乙烯基咪唑。可以推测,极性两性表面(二氧化硅NPs的OH基团)通过氢键稳定了相应的过渡态和中间体,从而促进了吸附的弱酸性和碱性组分的相互作用。与相邻硅烷醇基团的相互作用似乎是速率加速的合理因素。两个相邻的硅烷醇基团(一个作为氢键供体,另一个作为氢键受体)参与反应机制似乎也是合理的。
Synthesis of electron-poor N-Vinylimidazole derivatives catalyzed by Silica nanoparticles under solvent-free conditions
A B S T R A C T: Protonation of the highly reactive 1:1 intermediates, produced in the reaction between triphenylphosphine and acetylenic esters, by NH-acids such as azathioprine, imidazole or theophylline leads to the formation of vinyltriphenylphosphonium salts, which undergo a Michael addition reaction with a conjugate base to produce phosphorus ylides. Silica nanoparticles (silica NPs were prepared by thermal decomposition of rice hulls) was found to catalyze the conversion of the phosphorus ylides to electron-poor N-vinyl imidazoles in solvent-free conditions under thermal (90 o C, 30 min) conditions. It may be speculated that the polar amphoteric surface (OH groups of the silica NPs) facilitates the interaction of adsorbed weak acidic and basic components due to stabilization of the corresponding transition states and intermediates by H-bonding. It seems that the interactions with the neighboring silanol groups are plausible factors in the rate acceleration. Participation of two proximate silanol groups (one as an Hbond donor and the other as an H-bond acceptor) in the reaction mechanism also seems to be plausible.
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