AI Article Synopsis
- A hydrogen-bridged bis(silylene) complex represents a transition state for 1,3-hydrogen migration, demonstrating a unique WSi2H four-membered-ring structure.
- X-ray crystallography revealed a short diagonal Si-Si distance within this complex.
- NMR studies and theoretical calculations indicate the formation of a novel multicenter bond, with the bridging hydrogen exhibiting hydridic characteristics.
Article Abstract
A hydrogen-bridged bis(silylene) complex, which can be viewed as a snapshot of a transition state for 1,3-hydrogen migration, was isolated, and its unprecedented WSi2H four-membered-ring structure with a short diagonal Si-Si distance was revealed by X-ray crystallography. NMR studies including determination of the W-Si, Si-Si, and Si-H coupling constants and theoretical calculations suggest that a novel multicenter bond is formed in the WSi2H system, in which the bridging hydrogen takes on a hydridic nature.
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| http://dx.doi.org/10.1021/ja512336v | DOI Listing |
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