CH-Bindungsmomente und IR-Intensitäten von Benzol-Derivaten—I. Einführung

Spectrochimica Acta Pub Date : 1966-09-01 DOI:10.1016/0371-1951(66)80162-5

E.D. Schmid, V. Hoffmann, R. Joeckle, F. Langenbucher

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引用次数: 11

Abstract

It is shown that to a good approximation the CH-stretching vibrations in benzene derivatives are localized in the CH bonds and that the total intensity of a CH-stretching vibration of such a compound is given by the sum of the squares of the derivatives ∂μ|∂R_j: I_CH = $j ́$ ( $∂μ ∂ R_{j}$ ) ∂μ|∂R_j is the change of the molecular dipole moment with respect to a change of the stretching coordinate R_j of the jth CH bond. Experimental data demonstrate the validity of this approximation.

In continuation of our former investigations on the dependence of the CH-stretching vibrations on different substituents we have examined a considerable number of deuterated benzene monoderivatives, para-disubstituted benzene derivatives and 2-, 3- and 4-substituted pyridine derivatives. We have found a relation of general validity between I_CH and the Taft substitution constant σ_I: I_CH = F(σ_I). The interpretation of this result leads to conclusions concerning the effect of substituents on the CH dipole of benzene derivatives.

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苯类衍生品之间的国际联系时间。引入

结果表明，苯衍生物中的CH-拉伸振动很好地定位于CH键，并且这种化合物的CH-拉伸振动的总强度由导数∂μ|∂Rj的平方根和给出:ICH = j′(∂μ∂Rj)∂μ|∂Rj是分子偶极矩相对于第j个CH键的拉伸坐标Rj的变化。实验数据证明了这种近似的有效性。为了继续我们之前关于ch -伸缩振动对不同取代基的依赖性的研究，我们研究了相当数量的氘化苯单衍生物、对二取代苯衍生物和2-、3-和4-取代吡啶衍生物。我们发现ICH与塔夫脱替代常数σI之间有一个普遍有效的关系:ICH = F(σI)。对这一结果的解释可以得出取代基对苯衍生物CH偶极子的影响的结论。

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Spectrochimica Acta

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