This thesis aims to discuss an enantioselective intramolecular desymmetrization of aryl Grignard reagents. In the presence Rh(I)-catalyst, in situ generated from [RhCl(coe)2]2 and (S)-Segphos (S)-L10a, the Grignard reagents 93 are transformed into chiral compound 94, via 1,4-rhodium shift and beta-alkoxy elimination sequentially, in 10–99% yields and 79–99% ees. Additionally, a series of experiments of deuterium-labeling provide a mechanistic insight of this transformation. Apart from most of the studies, focusing on the addition reactions of intermediates formed by 1,4-rhodium shift, this one is the first example of demonstrating synthesis of chiral intramolecular desymmetrization directly after 1,4- rhodium shift. With the high chemical yields and high enantioselectivities of the desired terminal alkenes, the transformation offers its synthetic potentials in drug synthesis.