Si-Si結合を切断せずに進行する，遷移金属触媒によるオリゴシランの選択的官能基化反応

抄録

Introduction of various types of substituents onto oligosilane chains is important for not only synthesis scheme of functionalized oligosilanes but also modification and tuning of the unique photophysical and electronic properties. To explore further potentials of oligosilanes, development of their synthetic methods is essential. Since transition metal-based methodologies have contributed greatly to the remarkable progress in synthetic organic chemistry, application of similar strategies for the oligosilane synthesis is highly desirable. However, few such attempts have been reported so far, probably due to the intrinsic reactivity of the Si-Si bond toward transition metal species. We are trying to develop the transition metal-catalyzed reactions of oligosilanes without Si-Si bond cleavage. In this paper, titanium-catalyzed selective monoreduction of dichlorooligosilanes, ruthenium-catalyzed alkoxylation of hydrooligosilanes, and ruthenium-catalyzed regio- and stereoselective hydrosilylation reactions using hydrooligosilanes are described. By choosing appropriate catalysts, these reactions successfully provide a series of novel oligosilane derivatives with the Si-Si bond intact.