CH 2 CHCH +HBr
− 80 oC40 oCCH 3 CHCH CH 2
Br
(80%)
CH 3 CHCH CH 2
Br
(20%)CH 3 CH CHCH 2(20%)Br+CH 3 CH CHCH 2(80%)Br+CH 2 40 oCii) At the higher temperature and in the presence of HBr, the 1,2-adduct
rearranges to 1,4-product and that an equilibrium exists between them.CH 3 CHCH CH 2
Br
1,2-Addition productCH 3 CH CHCH 2
Br
1,4-Addition product40 oC, HBriii) The equilibrium favors the 1,4-addition product ⇒ 1,4-adduct must be more
stable.- The outcome of a chemical reaction can be determined by relative rates of
competing reactions and by relative stabilities of the final products.
- At lower temperature, the relative amounts of the products of the addition are
determined by the relative rates at which the two additions occur; 1,2-addition
occurs faster so the 1,2-addition product is the major product. - At higher temperature, the relative amounts of the products of the addition are
determined by the position of an equilibrium; 1,4-addition product is the more
stable, so it is the major product. - The step that determines the overall outcome of the reaction is the step in which
the bybrid allylic cation combines with a bromide ion:
CH 2 CHCH CH 2HBrCH 3 CH CH CH 2δ+ δ+Br−Br−CH 3 CHCH CH 2
BrCH 3 CH CHCH 2
Br1,2 Product1,4 ProductThis step determines
the regioselectivity
of the reaction.