化学
环加成
区域选择性
分子间力
选择性
位阻效应
产量(工程)
计算化学
双环分子
反应性(心理学)
反应机理
组合化学
钳子运动
立体选择性
立体化学
有机化学
反应条件
光化学
作者
Beyza N. Yilmaz,Tatyana Popkova,Ryan P. Murelli
摘要
ABSTRACT The oxidopyrylium (5 + 2) cycloaddition reaction provides rapid construction of complex bicyclic structures and has proven value within the synthetic organic chemistry community. However, the intermolecular variant of the reaction suffers from various documented challenges, one of which is often low regio‐ and stereoselectivity. We recently reported that oxidopyrylium ylides can react with methyl propiolate to yield 2:1 ylide:methyl propiolate “pincer” cycloadducts with high stereo‐ and regioselectivity. However, depending upon the nature of substitution on the ylide, different regio‐ and stereoisomers are formed. As a result, we found this discovery a valuable starting point for understanding the nuances that dictate the selectivity of oxidopyrylium cycloadditions and embarked on follow‐up studies. The following manuscript describes this work, which leverages a combination of computational and experimental studies to determine that the selectivity of oxidopyrylium pincer cycloadducts is governed by kinetics and is rationalized based upon both sterics and molecular orbital considerations.
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