International Journal of Photochemistry

The reaction greatest studied in linking with the orientation problem is substitution, while the values recognized similarly apply for the most portion to the allied reactions of nitration, halogenation, sulphonation, acylation or alkylation. Some illustrative statistics to the nitration of a numeral of mono-substituted benzene products are given in this review that involves the percentage of (o, p, m) isomers molded, besides their activity relative to aryl ring. Also there is a varied range of activity allowing to the nature of the substituent, and that the (o, p, m) positions are not similarly reactive. While these substituent effects can seem complex, they are related closely to reactant alkenes, as will be described in this review. In planning productions founded on substitution reactions of substituted benzene, it is authoritative to be able to calculate in advance which of the presented positions of the aromatic compound are probable to be most reactive and there are now sufficient statistics on the direction and activity effects of  compound substituents in electrophilic substitution to permit the production of selected exact valued generalizations

Keywords: Orientation, substitution, neucleophile, electrophile, Naming, IUPAC.

Cite this Article: Nagham Mahmood Aljamali, Alaa Jawad Kadhim, Jalal Hasan Mohammed, Afaq Jaber Kadhium. Review on Effect of Orientation Groups on Organic Compounds. International Journal of Photochemistry 2019; 5(2): 27–35p.