Efecto electromérico autógeno en el N-óxido de piridina y su nitración

TIP Revista Especializada en Ciencias QuimicoBiologicas Pub Date : 2014-06-01 DOI:10.1016/S1405-888X(14)70319-5

Francisco Sánchez-Viesca, Ma. Reina Gómez

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Abstract

Linton found out that the dipole moment of pyridine N-oxide is appreciably smaller than the expected theoretical value. Thus, he postulated the contribution of three ‘excited structures’, with a negative electric charge at the 2-, 4- and 6-position. However, a typical electrophilic substitution such as nitration, afforded only the 4-nitro derivative. This discrepancy between theory and experiment prompted us to study the pyridine N-oxide physical properties, since its reactivity is derived from them. Besides, these negative charged rings require an unexpected polarization and a reaction mechanism must be provided. We propose intermolecular induced polarization as a viable path. We uncovered that only one of the three structures before mentioned is supported by the observed reactivity and by ¹³C nuclear magnetic resonance data. On rejecting 2 of the Linton’ s ‘excited structures’, we have explained the regioselectivity found in pyridine N-oxide nitration

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n -氧化吡啶及其硝化作用的自体电泳效应

Linton发现吡啶n -氧化物的偶极矩明显小于预期的理论值。因此，他假设了三种“激发态结构”的作用，它们在2-、4-和6-位置上带负电荷。然而，一个典型的亲电取代，如硝化，只提供4-硝基衍生物。这种理论与实验之间的差异促使我们研究吡啶n -氧化物的物理性质，因为它的反应性是由它们推导出来的。此外，这些带负电荷的环需要一个意想不到的极化，必须提供一个反应机制。我们提出分子间诱导极化是可行的途径。我们发现，上述三种结构中只有一种得到了观察到的反应性和13C核磁共振数据的支持。在拒绝了2个林顿“激发态结构”的基础上，我们解释了吡啶n -氧化物硝化过程中的区域选择性

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TIP Revista Especializada en Ciencias QuimicoBiologicas

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20 weeks