Zur Photochemie von Allylaryläthern. 55. Mitteilung über Photoreaktionen

Abstract

AbstractThe photochemical reactions of different allyl aryl ethers (Scheme 3) were investigated in hydrocarbons (Chap. 3.1) and in alcoholic solvents (Chap. 3.2). The composition of the photoproducts depended very much on the nature of the solvent. Irradiation (3–95 h) of different methyl substituted allyl aryl ethers (1, 3, 5, 7 and 11) with a low pressure mercury lamp (λEmiss. = 254 nm; 6 or 15 Watt) under argon (quartz vessel) resulted in the formation of 2‐, 3– and 4‐substituted phenols, dienones and products of consecutive reactions (Tables 1–4 and 6). The results suggested that all products were formed by homolytic cleavage of the CO bond in the singlet state of the ethers to intermediate radical‐geminates (Scheme 5) followed by radical recombination of the two fragments. No products were formed by concerted processes (Table 5, Schemes 5 and 6).Upon irradiation of allyl aryl ethers lacking alkyl substituents at position 4 (1 and 5) in protic solvents, mainly 2‐ and 4‐allylated phenols were obtained (Tables 1 and 4); 3‐allylated phenols were formed only in small amounts (0.02%). However, in aromatic hydrocarbons or cyclohexane 3‐allylated phenols were obtained from 1, 5 and 11 in significant amounts (3–11%; Tables 1, 4 and 6). E.g., upon irradiation of allyl‐2,6‐dimethyl‐2,4‐cyclohexadien‐1‐one (6) besides 3‐ and 4‐allyl‐2, 6‐dimethyl‐phenol (23 and 24). Irradiation of 5 in methanol afforded 23 and 6 only in traces, whereas 24 was the main product.