Comparative Study of the Reactivity of Brook and Couret Silenes: Aldehyde Addition

The addition of the mechanistic probe trans-2-phenylcyclopropanecarbaldehyde (10) to the naturally polarized Couret silene Mes2SiC(H)(CH2 -t-Bu) (2) and the relatively nonpolar Brook silenes (Me3Si)2SiC(R)(OSiMe3), where R = t-Bu (1a), 1-Ad (1b), respectively, was examined. The addition of aldehyd...

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Veröffentlicht in:	Organometallics 2007-04, Vol.26 (9), p.2392-2401
Hauptverfasser:	Milnes, Kaarina K., Baines, Kim M.
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creator	Milnes, Kaarina K. Baines, Kim M.
description	The addition of the mechanistic probe trans-2-phenylcyclopropanecarbaldehyde (10) to the naturally polarized Couret silene Mes2SiC(H)(CH2 -t-Bu) (2) and the relatively nonpolar Brook silenes (Me3Si)2SiC(R)(OSiMe3), where R = t-Bu (1a), 1-Ad (1b), respectively, was examined. The addition of aldehyde 10 to silene 2 produces vinylsilane 17, siloxetanes 18a−c, and ester 19. Upon chromatography, siloxetanes 18a−c were found to undergo conversion to the alkenes trans-20 and cis-20 and (Mes2SiO)2. The formation of siloxetanes 18a−c and ester 19 is consistent with the formation of a 1,4-zwitterionic intermediate during the course of the addition of the aldehyde to silene 2. The addition of the cyclopropyl aldehyde 10 to Brook silenes produces the cis,trans-dienes 23 and 26, siloxetanes 24a,b and 27a,b, and acylsilanes 25a,b and 28a,b derived from silenes 1a and 1b, respectively. The formation of the cis,trans-dienes and the siloxetanes provides compelling evidence for the formation of an α-cyclopropylcarbinyl radical during the course of the addition of the aldehyde to the Brook silenes. This work provides a unique comparison of the reactivities of the naturally polarized Couret silene 2 and the relatively nonpolar Brook silenes 1a,b toward aldehydes. It is evident from the results that the polarity of the SiC bond of the silene has a profound influence on the mechanism of the addition of aldehydes to silenes.
doi_str_mv	10.1021/om070013m
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The addition of aldehyde 10 to silene 2 produces vinylsilane 17, siloxetanes 18a−c, and ester 19. Upon chromatography, siloxetanes 18a−c were found to undergo conversion to the alkenes trans-20 and cis-20 and (Mes2SiO)2. The formation of siloxetanes 18a−c and ester 19 is consistent with the formation of a 1,4-zwitterionic intermediate during the course of the addition of the aldehyde to silene 2. The addition of the cyclopropyl aldehyde 10 to Brook silenes produces the cis,trans-dienes 23 and 26, siloxetanes 24a,b and 27a,b, and acylsilanes 25a,b and 28a,b derived from silenes 1a and 1b, respectively. The formation of the cis,trans-dienes and the siloxetanes provides compelling evidence for the formation of an α-cyclopropylcarbinyl radical during the course of the addition of the aldehyde to the Brook silenes. This work provides a unique comparison of the reactivities of the naturally polarized Couret silene 2 and the relatively nonpolar Brook silenes 1a,b toward aldehydes. 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The addition of aldehyde 10 to silene 2 produces vinylsilane 17, siloxetanes 18a−c, and ester 19. Upon chromatography, siloxetanes 18a−c were found to undergo conversion to the alkenes trans-20 and cis-20 and (Mes2SiO)2. The formation of siloxetanes 18a−c and ester 19 is consistent with the formation of a 1,4-zwitterionic intermediate during the course of the addition of the aldehyde to silene 2. The addition of the cyclopropyl aldehyde 10 to Brook silenes produces the cis,trans-dienes 23 and 26, siloxetanes 24a,b and 27a,b, and acylsilanes 25a,b and 28a,b derived from silenes 1a and 1b, respectively. The formation of the cis,trans-dienes and the siloxetanes provides compelling evidence for the formation of an α-cyclopropylcarbinyl radical during the course of the addition of the aldehyde to the Brook silenes. This work provides a unique comparison of the reactivities of the naturally polarized Couret silene 2 and the relatively nonpolar Brook silenes 1a,b toward aldehydes. 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The addition of aldehyde 10 to silene 2 produces vinylsilane 17, siloxetanes 18a−c, and ester 19. Upon chromatography, siloxetanes 18a−c were found to undergo conversion to the alkenes trans-20 and cis-20 and (Mes2SiO)2. The formation of siloxetanes 18a−c and ester 19 is consistent with the formation of a 1,4-zwitterionic intermediate during the course of the addition of the aldehyde to silene 2. The addition of the cyclopropyl aldehyde 10 to Brook silenes produces the cis,trans-dienes 23 and 26, siloxetanes 24a,b and 27a,b, and acylsilanes 25a,b and 28a,b derived from silenes 1a and 1b, respectively. The formation of the cis,trans-dienes and the siloxetanes provides compelling evidence for the formation of an α-cyclopropylcarbinyl radical during the course of the addition of the aldehyde to the Brook silenes. This work provides a unique comparison of the reactivities of the naturally polarized Couret silene 2 and the relatively nonpolar Brook silenes 1a,b toward aldehydes. It is evident from the results that the polarity of the SiC bond of the silene has a profound influence on the mechanism of the addition of aldehydes to silenes.</abstract><pub>American Chemical Society</pub><doi>10.1021/om070013m</doi><tpages>10</tpages></addata></record>
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title	Comparative Study of the Reactivity of Brook and Couret Silenes: Aldehyde Addition
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