Phenylacetylene and Carbon Dioxide Activation by an Organometallic Samarium Complex

Phenylacetylene and Carbon Dioxide Activation by an Organometallic Samarium Complex

Small molecule activation is a topic of growing importance and the use of low-valent f-elements to perform these reactions is nowadays well established. The complex Cptt2Sm(thf) (1, Cptt = 1,3-(tBu)2Cp) is shown to activate the alkyne C–H bond of phenylacetylene to form the Cptt2Sm(C&e...

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Bibliographic Details
Main Authors: Violaine Goudy, Mathieu Xémard, Simon Karleskind, Marie Cordier, Carlos Alvarez Lamsfus, Laurent Maron, Grégory Nocton
Format: Article
Language:English
Published: MDPI AG 2018-08-01
Series:Inorganics
Subjects:
small molecule activation
samarium complexes
C–H activation
Online Access:http://www.mdpi.com/2304-6740/6/3/82
Description
Summary:Small molecule activation is a topic of growing importance and the use of low-valent f-elements to perform these reactions is nowadays well established. The complex Cptt2Sm(thf) (1, Cptt = 1,3-(tBu)2Cp) is shown to activate the alkyne C–H bond of phenylacetylene to form the Cptt2Sm(C≡C–Ph)(thf) complex. The subsequent reaction of this Sm(III) complex with CO2 leads to the CO2 insertion, yielding a dimeric [Cptt2Sm(O2C–C≡C–Ph)]2 complex (2), in which the carbon dioxide has been inserted in the Sm–C bond. Along with the experimental chemical structure analysis, theoretical calculations have been performed in order to rationalize the formation of 1 and 2.
ISSN:2304-6740

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