The interpretation of carbon nuclear magnetic resonance shifts

J. Mason
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引用次数: 45

Abstract

13 C Chemical shifts, when corrected for the diamagnetic term, become additive for polysubstitution by halogen, or methyl, methoxy-, or phenyl groups; and the branched alkanes, and fused (or linked) arenes, follow the simple rules. The corrected shifts for acyclic (including branched) alkanes and simple cycloalkanes (except cyclopropane) are given by five parameters which are increments for each α-, β-, γ-, and δ-carbon substituent, and a small constant term to include methane. The methylcyclohexane parameters vary with conformation.The increase in corrected (paramagnetic) shift with substitution is related to the molecular orbital theory. The shift increases as QAB, the double bond term, increases.The corrected shift has a periodic relationship with the atomic number of the ligand X in MenX. The corrected shift increases across the period of the ligand X (as its electronegativity increases), but also increases down the group of the ligand (as its electronegativity decreases), except for a small decrease from the first row to the second for the more electronegative ligands.While increments in corrected shift are additive for saturated ligands, conjugative interaction with multiply bonded substituents reduces the resultant paramagnetic shift.
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碳核磁共振的解释发生了变化
当对反磁性项进行校正时,化学位移成为卤素、甲基、甲氧基或苯基多取代的添加剂;而支链烷烃和熔合(或连接)芳烃则遵循简单的规则。无环(包括支链)烷烃和简单环烷烃(环丙烷除外)的修正位移由五个参数给出,这些参数是每个α-, β-, γ-和δ-碳取代基的增量,以及一个小常数项,以包括甲烷。甲基环己烷的参数随构象的不同而变化。取代引起的修正(顺磁)位移的增加与分子轨道理论有关。位移随着双键项QAB的增加而增加。修正位移与MenX中配体X的原子序数有周期关系。修正后的位移在配体X的整个周期内增加(因为它的电负性增加),但也在配体的基团上增加(因为它的电负性降低),除了电负性更强的配体从第一行到第二行有一个小的减少。虽然校正位移的增量是饱和配体的加法,但与多键取代基的共轭相互作用减少了由此产生的顺磁位移。
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