162375-22-6Relevant academic research and scientific papers
Ruthenium-catalyzed trans-selective hydrostannation of alkynes
Rummelt, Stephan M.,Fuerstner, Alois
, p. 3626 - 3630 (2014)
In contrast to all other transition-metal-catalyzed hydrostannation reactions documented in the literature, the addition of Bu3SnH across various types of alkynes proceeds with excellent trans selectivity, provided the reaction is catalyzed by [CpRu]-based complexes. This method is distinguished by a broad substrate scope and a remarkable compatibility with functional groups, including various substituents that would neither survive under the conditions of established Lewis acid mediated trans hydrostannations nor withstand free-radical reactions. In case of unsymmetrical alkynes, a cooperative effect between the proper catalyst and protic functionality in the substrate allows outstanding levels of regioselectivity to be secured as well. Unorthodox: Ruthenium catalysts allow stannanes to be added in a trans fashion across the triple bonds of terminal, internal, silylated, and chlorinated alkynes. This pattern violates the basic mechanism of transition-metal catalysis which otherwise secures high cis selectivity in hydrometalations. Cooperative effects between the ruthenium species and protic functionality render reactions of unsymmetrical substrates regioselective. Cp=η5-C 5Me5.
Process for the ruthenium catalyzed trans-selective hydrostannation of alkynes
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Paragraph 0040; 0046; 0047, (2015/05/06)
The present invention refers to a process for the ruthenium-catalyzed trans-selective hydrostannation of alkynes and the so-obtained products. The inventive process makes use of a tin hydride which is reacted with an alkyne in the presence of a cyclopentadienyl-coordinated ruthenium catalyst.
PROCESS FOR THE RUTHENIUM CATALYZED TRANS-SELECTIVE HYDROSTANNATION OF ALKYNES
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Page/Page column 23; 24, (2015/05/06)
The present invention refers to a process for the ruthenium-catalyzed trans-selective hydrostannation of alkynes and the so-obtained products. The inventive process makes use of a tin hydride which is reacted with an alkyne in the presence of a cyclopentadienyl-coordinated ruthenium catalyst.
