Abstract
Despite the highly interesting electronic properties of polysilanes the chemist's repertoire for their synthesis of
structural manipulation is mostly limited to the Wurtz type coupling reaction. In this connection Lewis acid catalyzed
rearrangement reactions represent an interesting method to access molecular structures, which are otherwise difficult
to obtain. Closely related to the well know Wagner-Meerwein rearrangement, it is a much more facile process for
polysilanes. Although first examples of polysilane rearrangement have been reported almost 40 years ago not much is
known about the governing principles.
The current project, to be carried out by the groups in Oldenburg and Graz, proposes a joint study comprising new
synthetic approaches, investigations of intermediates and reaction mechanisms, both supported by computational
methods. Preliminary studies have already shown that the reaction of isomeric polysilanes with aluminum chloride can
result in the formation of rather complex structures such as an adamantane type tricyclic polysilane. In addition it was
found that germanium containing polysilanes rearrange with the germanium atoms selectively moved to trisilylated
positions of the product.
Other preliminary results suggest the Lewis acid catalyzed reaction can also be used for the synthesis of polysilanes
containing alkylene units and even further for the preparation of complex carbosilanes.
The synthetic work in this project, conducted by the Austrian group, will benefit from the theoretical and basic studies
(of the German group) which will provide insight into the underlying principles. On the other hand will the synthetic work
allow formulating new questions which will be addressed by computational methods.
The unique combined synthetic and theoretical expertise of the two groups will allow the best possible treatment of the
complex matter of Lewis acid catalyzed rearrangement reactions.
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