Formation and Reactivity of a Hexahydridosilicate [SiH6 ]2- Coordinated by a Macrocycle-Supported Strontium Cation

Abstract

The cationic benzyl complex [(Me₄ TACD)Sr(CH₂ Ph)][A] (Me₄ TACD=1,4,7,10-tetramethyltetraazacyclododecane; A=B(C₆ H₃ -3,5-Me₂ )₄ ) reacted with two equivalents of phenylsilane to give the bridging hexahydridosilicate complex [(Me₄ TACD)₂ Sr₂ (thf)₄ (μ-κ³ : κ³ -SiH₆ )][A]₂ (3 a). Rapid phenyl exchange between phenylsilane molecules is assumed to generate monosilane SiH₄ that is trapped by two strontium hydride cations [(Me₄ TACD)SrH(thf)_x ]⁺ . Complex 3 a decomposed in THF at room temperature to give the terminal silanide complex [(Me₄ TACD)Sr(SiH₃ )(thf)₂ ][A], with release of H₂ . Upon reaction with a weak Brønsted acid, CO₂ , and 1,3,5,7-cyclooctatetraene SiH₄ was released. The reaction of a 1 : 2 mixture of cationic benzyl and neutral dibenzyl complex with phenylsilane gave the trinuclear silanide complex [(Me₄ TACD)₃ Sr₃ (μ₂ -H)₃ (μ₃ -SiH₃ )₂ ][A], while ⁿ OctSiH₃ led to the trinuclear (n-octyl)pentahydridosilicate complex [(Me₄ TACD)₃ Sr₃ (μ₂ -H)₃ (μ₃ -SiH₅ ⁿ Oct)][A].

Keywords: alkaline earth metal; hydride complex; hydridosilicate; silanide; strontium.