What question did this study set out to answer?

The aim is to explore efficient routes for creating functional oligosilanes using controlled Si–H activation.

February 28, 2026Open Access

Flash Communication: Access to a Chloro Substituted Zinciooctasilane through Controlled Si–H Activation

Key Points

The aim is to explore efficient routes for creating functional oligosilanes using controlled Si–H activation.
Used nonachloro-isotetrasilane with an organozinc reagent for selective Si–H activation.
Compared synthesized compounds with literature-known mercuriooctasilane.
Characterized both compounds structurally and analyzed photochemical properties.
Successfully demonstrated selective Si–H activation for nonachloro-isotetrasilane.
Mercury facilitates clean Si–Si bond formation, while zinc blocks radical pathways.

Abstract

Oligosilanes are attractive precursors for advanced silicon materials, yet efficient routes beyond monosilanes remain limited. We demonstrate that the nonachloro-isotetrasilane undergoes highly selective Si–H activation with an organozinc reagent. The directed zincation defines a metal-controlled platform for the preparation of functional oligosilanes, offering new opportunities in the polysilicon precursor design and silicon nanostructure synthesis. For comparison, the literature-known mercuriooctasilane was also prepared, and both compounds were structurally characterized. Interestingly, these silylmetal compounds exhibit divergent photochemistry: mercury enables clean Si–Si bond formation, whereas zinc coordination effectively blocks radical pathways.

Flash Communication: Access to a Chloro Substituted Zinciooctasilane through Controlled Si–H Activation

Key Points

Abstract

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