The gilded edge in acetylenic scaffolding II: a computational study of the transmetalation processes involved in palladium-catalyzed cross-couplings of gold(I) acetylides

Mie Højer Larsen; Mogens Brøndsted Nielsen

doi:10.1021/acs.organomet.5b00135

The gilded edge in acetylenic scaffolding II: a computational study of the transmetalation processes involved in palladium-catalyzed cross-couplings of gold(I) acetylides

Mie Højer Larsen, Mogens Brøndsted Nielsen

Department of Chemistry

4 Citations (Scopus)

Abstract

The palladium-catalyzed cross-coupling reaction between phosphine-gold(I) acetylides and aryl iodides has recently proven as a convenient alternative to the standard Sonogashira reaction, which instead employs terminal alkynes as substrates. This alternative reaction does not require the presence of an amine base, but still, however, requires a copper cocatalyst (CuI). In this theoretical work we have investigated the possible roles that this copper catalyst may play. Three transmetalation pathways can be imagined, proceeding by either (i) transferring the acetylide from gold to copper and thereafter to palladium, (ii) directly transferring the acetylide from gold to palladium, or (iii) directly transferring the acetylide from gold to palladium but aided by a copper coordination to the triple bond. Calculations reveal that the first of these is the most viable reaction pathway, as it involves the initial formation of a very favorable copper/gold acetylide complex. The transmetalations along this pathway run via several equilibria. (Chemical Equation Presented).

Original language	English
Journal	Organometallics
Volume	34
Issue number	15
Pages (from-to)	3678-3685
Number of pages	8
ISSN	0276-7333
DOIs	https://doi.org/10.1021/acs.organomet.5b00135
Publication status	Published - 10 Aug 2015

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The gilded edge in acetylenic scaffolding II : a computational study of the transmetalation processes involved in palladium-catalyzed cross-couplings of gold(I) acetylides. / Larsen, Mie Højer; Nielsen, Mogens Brøndsted.

In: Organometallics, Vol. 34, No. 15, 10.08.2015, p. 3678-3685.

Research output: Contribution to journal › Journal article › Research › peer-review

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title = "The gilded edge in acetylenic scaffolding II: a computational study of the transmetalation processes involved in palladium-catalyzed cross-couplings of gold(I) acetylides",

abstract = "The palladium-catalyzed cross-coupling reaction between phosphine-gold(I) acetylides and aryl iodides has recently proven as a convenient alternative to the standard Sonogashira reaction, which instead employs terminal alkynes as substrates. This alternative reaction does not require the presence of an amine base, but still, however, requires a copper cocatalyst (CuI). In this theoretical work we have investigated the possible roles that this copper catalyst may play. Three transmetalation pathways can be imagined, proceeding by either (i) transferring the acetylide from gold to copper and thereafter to palladium, (ii) directly transferring the acetylide from gold to palladium, or (iii) directly transferring the acetylide from gold to palladium but aided by a copper coordination to the triple bond. Calculations reveal that the first of these is the most viable reaction pathway, as it involves the initial formation of a very favorable copper/gold acetylide complex. The transmetalations along this pathway run via several equilibria. (Chemical Equation Presented).",

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AU - Nielsen, Mogens Brøndsted

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N2 - The palladium-catalyzed cross-coupling reaction between phosphine-gold(I) acetylides and aryl iodides has recently proven as a convenient alternative to the standard Sonogashira reaction, which instead employs terminal alkynes as substrates. This alternative reaction does not require the presence of an amine base, but still, however, requires a copper cocatalyst (CuI). In this theoretical work we have investigated the possible roles that this copper catalyst may play. Three transmetalation pathways can be imagined, proceeding by either (i) transferring the acetylide from gold to copper and thereafter to palladium, (ii) directly transferring the acetylide from gold to palladium, or (iii) directly transferring the acetylide from gold to palladium but aided by a copper coordination to the triple bond. Calculations reveal that the first of these is the most viable reaction pathway, as it involves the initial formation of a very favorable copper/gold acetylide complex. The transmetalations along this pathway run via several equilibria. (Chemical Equation Presented).

AB - The palladium-catalyzed cross-coupling reaction between phosphine-gold(I) acetylides and aryl iodides has recently proven as a convenient alternative to the standard Sonogashira reaction, which instead employs terminal alkynes as substrates. This alternative reaction does not require the presence of an amine base, but still, however, requires a copper cocatalyst (CuI). In this theoretical work we have investigated the possible roles that this copper catalyst may play. Three transmetalation pathways can be imagined, proceeding by either (i) transferring the acetylide from gold to copper and thereafter to palladium, (ii) directly transferring the acetylide from gold to palladium, or (iii) directly transferring the acetylide from gold to palladium but aided by a copper coordination to the triple bond. Calculations reveal that the first of these is the most viable reaction pathway, as it involves the initial formation of a very favorable copper/gold acetylide complex. The transmetalations along this pathway run via several equilibria. (Chemical Equation Presented).

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DO - 10.1021/acs.organomet.5b00135

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IS - 15

ER -

The gilded edge in acetylenic scaffolding II: a computational study of the transmetalation processes involved in palladium-catalyzed cross-couplings of gold(I) acetylides

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