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W2071763876 endingPage "8397" @default.
W2071763876 startingPage "8383" @default.
W2071763876 abstract "Abstract A straightforward to assemble catalytic system for the intermolecular hydroacylation reaction of β‐S‐substituted aldehydes with activated and unactivated alkenes and alkynes is reported. These catalysts promote the hydroacylation reaction between β‐S‐substituted aldehydes and challenging substrates, such as internal alkynes and 1‐octene. The catalysts are based upon [Rh(cod)(DPEphos)][ClO 4 ] (DPEphos=bis(2‐diphenylphosphinophenyl)ether, cod=cyclooctadiene) and were designed to make use of the hemilabile capabilities of the DPEphos ligand to stabilise key acyl–hydrido intermediates against reductive decarbonylation, which results in catalyst death. Studies on the stoichiometric addition of aldehyde (either ortho ‐HCOCH 2 CH 2 SMe or ortho ‐HCOC 6 H 4 SMe) and methylacrylate to precursor acetone complexes [Rh(acetone) 2 (DPEphos)][X] [X= closo ‐CB 11 H 6 Cl 6 or [BAr F 4 ] (Ar F = 3,5‐(CF 3 ) 2 C 6 H 3 )] reveal the role of the hemilabile DPEphos ligand. The crystal structure of [Rh(acetone) 2 (DPEphos)][X] shows a cis ‐coordinated diphosphine ligand with the oxygen atom of the DPEphos distal from the rhodium. Addition of aldehyde forms the acyl hydride complexes [Rh(DPEphos)(COCH 2 CH 2 SMe)H][X] or [Rh(DPEphos)(COC 6 H 4 SMe)H][X], which have a trans ‐spanning DPEphos ligand and a coordinated ether group. Compared to analogous complexes prepared with dppe (dppe=1,2‐bis(diphenylphosphino)ethane), these DPEphos complexes show significantly increased resistance towards reductive decarbonylation. The crystal structure of the reductive decarbonylation product [Rh(CO)(DPEphos)(EtSMe)][ closo‐ CB 11 H 6 I 6 ] is reported. Addition of alkene (methylacrylate) to the acyl–hydrido complexes forms the final complexes [Rh(DPEphos)(η 1 ‐MeSC 2 H 4 ‐η 1 ‐COC 2 H 4 CO 2 Me)][X] and [Rh(DPEphos)(η 1 ‐MeSC 6 H 4 ‐η 1 ‐COC 2 H 4 CO 2 Me)][X], which have been identified spectroscopically and by ESIMS/MS. Intermediate species in this transformation have been observed and tentatively characterised as the alkyl–acyl complexes [Rh(CH 2 CH 2 CO 2 Me)(COC 2 H 4 SMe)(DPEphos)][X] and [Rh(CH 2 CH 2 CO 2 Me)(COC 6 H 4 SMe)(DPEphos)][X]. In these complexes, the DPEphos ligand is now cis chelating. A model for the (unobserved) transient alkene complex that would result from addition of alkene to the acyl–hydrido complexes comes from formation of the MeCN adducts [Rh(DPEphos)(MeSC 2 H 4 CO)H(MeCN)][X] and [Rh(DPEphos)(MeSC 6 H 4 CO)H(MeCN)][X]. Changing the ligand from DPEphos to one with a CH 2 linkage, [Ph 2 P(C 6 H 4 )] 2 CH 2 , gave only decomposition on addition of aldehyde to the acetone precursor, which demonstrated the importance of the hemiabile ether group in DPEphos. With [Ph 2 P(C 6 H 4 )] 2 S, the sulfur atom has the opposite effect and binds too strongly to the metal centre to allow access to productive acetone intermediates." @default.
W2071763876 created "2016-06-24" @default.
W2071763876 creator A5003952861 @default.
W2071763876 creator A5023731135 @default.
W2071763876 creator A5026488123 @default.
W2071763876 creator A5031577471 @default.
W2071763876 creator A5057933608 @default.
W2071763876 date "2008-09-15" @default.
W2071763876 modified "2023-10-18" @default.
W2071763876 title "Intermolecular Alkene and Alkyne Hydroacylation with β-S-Substituted Aldehydes: Mechanistic Insight into the Role of a Hemilabile P-O-P Ligand" @default.
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