波谱学杂志 ›› 1986, Vol. 3 ›› Issue (2): 147-157.

• 研究论文 • 上一篇    下一篇

稠苯芳杂环及其烷基质子化学位移的计算

吴祖懿   

  1. 北京大学化学系
  • 收稿日期:1984-11-04 修回日期:1985-12-21 出版日期:1986-06-05 发布日期:2018-01-23

CALCULATIONS OF CHEMICAL SHIFTS OF PROTONS IN RINGS OF FUSED BENZENOID AROMATIC HETEROCYCLICS AND THEIR ALKYL CHAINS

Wu Zuyi   

  1. Department of Chemistry, Beijing Vniversity, Beijing
  • Received:1984-11-04 Revised:1985-12-21 Online:1986-06-05 Published:2018-01-23

摘要: 本文提出了予测稠苯芳杂环及其烷基链上质子化学位移的计算方法。
将稠苯芳杂环化合物用凯库勒式表示,计算式为为需考虑的苯环内的乙烯基效应。σmi,ci为各苯环的环流效应。σ1,Hc为各芳杂环的屏蔽效应,对杂环上质子它就是该单独芳杂环上相应质子的δ值,对苯环上质子要将它分解为各结构因素的效应,即:σ1,He=(1/2)d-1δx=y(或σz)+σc-c·σm,H.
σx-yσz为杂原子或其基团的屏蔽效应,σc=c为存在于芳杂环中的乙烯基的效应,σm,Hc为芳杂环的环流效应,d为对不同质子所考虑的键数。有取代基时需考虑取代基的效应。计算环上烷基质子的公式为:δ=σp,CH3+ασc,CH3+βσt,CH3+σl,G
σl,G为稠苯芳杂环基的某级效应。

Abstract: In the present paper the calculation methods of chemical shifts of protons in the rings of fused benzenoid aromatic hcterocyclics and their alkyl chains has been proposed.
The chemical shift of fused benzenoid aromatic helerocyclics must be presented by KeKul'e formulas, the calculation formula is:
σj,c=c are the effects of ethenyls in the benzene rings that must be calculated.σmi,Cj are the net ring-current effects of benzene rings.σl,Hc are shielding effects of aromatic heterocyclics. If the proton belongs to an aromatic heterocyclic ring,σl,Hc is chemical shift of the proton that is in the same position of the single aromatic heterocyclic ring. If the proton belongs to benzene rings,σl,Hc must be divided into the effects of the structural units, thus:
σl,Hc=(1/2)d-1σx=y(or σz)+σc-c+σm,Hc σx=y and σZ are shielding effects ofheteroatom or hcteroatomic group +σc-c is the effect of ethenyl if it is situated in the aromatic heterocyclic ring. σm,Hc is net ring current effect of aromatic helerocyclic ring, d is the bond number that is concerned to the different protons. The substituting groups must be considered if they are present. The calculation fomula for the protons of alkyl chains in a ring is:δσP,CH3+α σS,CH3+β σt,CH3+σi,G σi,G is a certain order effect of fused benzenoid aromatic heterocyclic radical.