2017
DOI: 10.1002/cctc.201700946
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Carbonylative Suzuki Coupling Reaction Catalyzed by a Hydrospirophosphorane Palladium Complex

Abstract: Conversion4 0%, [b] 4e 39 % Conversion6 8%, [c] 4e 58 %( 50 %) [d] Conversion 44 %, [b] 4f43 % Conversion 60 %, [c] 4f52 %( 40 %) [d] Conversion 60 %, [b] 4g 59 % Conversion 72 %, [c] 4g 71 %(64 %) [d] Conversion 37 %, [b] 4h 37 % Conversion 52 %, [c] 4h 52 %( 44 %) [d]

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Cited by 19 publications
(8 citation statements)
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“…Wojcik co‐workers [44] reported hydrospirophosphorane ligated Pd‐complex as a catalyst for the carbonylative Suzuki coupling with a variety of aryl iodides 35a and sodium tetraphenyl‐borate as well as arylboronic acids 35b to prepare a sequence of asymmetrical ketones 35c . In this reaction, the hydrospirophosphorane ligand played a double role to stabilize Pd in molecular complexes as well as Pd‐nanoparticles formed in the catalytic system in situ .…”
Section: Palladium Catalysed Carbonylative Suzuki‐miyaura Coupling Rementioning
confidence: 99%
“…Wojcik co‐workers [44] reported hydrospirophosphorane ligated Pd‐complex as a catalyst for the carbonylative Suzuki coupling with a variety of aryl iodides 35a and sodium tetraphenyl‐borate as well as arylboronic acids 35b to prepare a sequence of asymmetrical ketones 35c . In this reaction, the hydrospirophosphorane ligand played a double role to stabilize Pd in molecular complexes as well as Pd‐nanoparticles formed in the catalytic system in situ .…”
Section: Palladium Catalysed Carbonylative Suzuki‐miyaura Coupling Rementioning
confidence: 99%
“…Nanoparticles probably are stabilized by the excess of tert ‐butyl bromide [ 35 ] and product of the cleavage of HSP ligand, that is, phosphonate moieties, reported elsewhere. [ 6 ]…”
Section: Resultsmentioning
confidence: 99%
“…During our investigations of HSP complexes, we have demonstrated excellent catalytic properties of palladium phosphorane complex [PdCl 2 {P(OCMe 2 CMe 2 O)OC 6 H 4 NH 2 }] in carbonylative Suzuki coupling reaction of substituted iodobenzenes with arylboronic acids and with sodium tetraphenylborate. [ 6 ] We have discovered that palladium complexes appeared to be excellent catalysts for Heck and Hiyama carbon‐carbon coupling, yielding stilbenes with high yield and selectivity. [ 7,8 ] High‐valent oxorhenium hydrospirophosphorane complexes appeared to be co‐catalyst of choice in the oxidation of aldehydes with molecular oxygen in the presence of NHPI as the free‐radical source and catalyst initiator.…”
Section: Introductionmentioning
confidence: 99%
“…For instance, the carbonylative Suzuki–Miyaura coupling reactions of aryl boronic acids with 2‐bromopyridine or aryl bromides have been associated with many shortcomings such as high catalyst loading, low yields, and low selectivity. In addition, these reactions need high in situ loading of phosphines 2,28,60,63 . To our knowledge, Pd(II)‐NHC complexes were not largely reported as catalysts in the carbonylative Suzuki–Miyaura coupling reactions of aryl bromides with boronic acids.…”
Section: Resultsmentioning
confidence: 99%