Jamie A. Cadge scite author profile

The first isolated examples of intermolecular oxidative addition of alkenyl and alkynyl iodides to AuI are reported. Using a 5,5′‐difluoro‐2,2′‐bipyridyl ligated complex, oxidative addition of geometrically defined alkenyl iodides occurs readily, reversibly and stereospecifically to give alkenyl‐AuIII complexes. Conversely, reversible alkynyl iodide oxidative addition generates bimetallic complexes containing both AuIII and AuI centers. Stoichiometric studies show that both new initiation modes can form the basis for the development of C−C bond forming cross‐couplings.

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A Systematic Study of the Effects of Complex Structure on Aryl Iodide Oxidative Addition at Bipyridyl‐Ligated Gold(I) Centers

Cadge

Bower

Russell

2021

Angew Chem Int Ed

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Acombined theoretical and experimental approach has been used to study the unusual mechanism of oxidative addition of aryl iodides to [bipyAu(C 2 H 4 )] + complexes.T he modular nature of this system allowed asystematic assessment of the effects of complex structure.C omputational comparisons between cationic gold and the isolobal (neutral) Pd 0 and Pt 0 complexes revealed similar mechanistic features,b ut with oxidative addition being significantly favored for the group 10 metals.F urther differences between Au and Pd were seen in experimental studies:s tudying reaction rates as af unction of electronic and steric properties showed that ligands bearing more electron-poor functionality increase the rate of oxidative addition;i nacomplementary way, electron-rich aryl iodides give faster rates.T his divergence in mechanism compared to Pd suggests that Ar À Xo xidative addition with Au can underpin ab road range of new or complementary transformations.Scheme 1. Oxidative addition at transition metal centers.

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A Hemilabile NHC‐Gold Complex and its Application to the Redox Neutral 1,2‐Oxyarylation of Feedstock Alkenes

et al. 2023

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We describe a AuI complex of a hemi‐labile (C^N) N‐heterocyclic carbene ligand that is able to mediate oxidative addition of aryl iodides. Detailed computational and experimental investigations have been undertaken to verify and rationalize the oxidative addition process. Application of this initiation mode has resulted in the first examples of “exogenous oxidant‐free” AuI/AuIII catalyzed 1,2‐oxyarylations of ethylene and propylene. These demanding yet powerful processes establish these commodity chemicals as nucleophilic‐electrophilic building blocks in catalytic reaction design.

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Migratory Insertion of CO into a Au–C Bond

et al. 2022

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A MeDalPhos-ligated gold(III) metallafluorene complex, generated via C–C oxidative addition of biphenylene, reacts with CO to produce 9-fluorenone. Experimental and computational studies show that this proceeds via a hitherto unknown migratory insertion of CO into a Au(III)–C bond. This process is more energetically challenging compared to other M–C bonds, but once achieved, the product is comparatively stable with respect to retro-carbonylation. Exploiting migratory insertion of CO into Au–C bonds may extend the range of products that are accessible using gold chemistry.

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Mechanistic insight into organic and industrial transformations: general discussion

Aoki¹,

Braun²,

Cadge³

et al. 2019

Faraday Discuss.

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The passage of stock solutions through stainless-steel needles during sample preparation or introduction into the apparatus led to rapid oxidative decay rates due to metal leaching. What practical measures should be taken in this and related systems and what would be the best alternative to stainless-steel needles?Guy Lloyd-Jones answered: For this system, use of glass or polymer seems to work ne. For other systems, this is a difficult question to answer. It will always be a balance of practicality over 'purity'. Just like using glass reaction vessels (which are not always as inert as we would expect), stainless steel needles and cannulae are very convenient, and do not oen interfere with reactions. A few controls should hopefully elucidate if there is any interference, and if so, then other nominally inert materials (e.g. PTFE, ceramic, titanium, etc.) can be used, if required.Jennifer Love continued the discussion of the paper: It's great that you have gured this out. We've seen in other systems that decomposition is a lot more complex than one would think and our problem was that we couldn't isolate and measure our product. Were you able to measure and fully characterise the product 282

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Jamie A. Cadge

Oxidative Addition of Alkenyl and Alkynyl Iodides to a Au^I Complex

A Systematic Study of the Effects of Complex Structure on Aryl Iodide Oxidative Addition at Bipyridyl‐Ligated Gold(I) Centers

A Hemilabile NHC‐Gold Complex and its Application to the Redox Neutral 1,2‐Oxyarylation of Feedstock Alkenes

Migratory Insertion of CO into a Au–C Bond

Mechanistic insight into organic and industrial transformations: general discussion

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Jamie A. Cadge

Oxidative Addition of Alkenyl and Alkynyl Iodides to a AuI Complex

A Systematic Study of the Effects of Complex Structure on Aryl Iodide Oxidative Addition at Bipyridyl‐Ligated Gold(I) Centers

A Hemilabile NHC‐Gold Complex and its Application to the Redox Neutral 1,2‐Oxyarylation of Feedstock Alkenes

Migratory Insertion of CO into a Au–C Bond

Mechanistic insight into organic and industrial transformations: general discussion

Contact Info

Product

Resources

About

Oxidative Addition of Alkenyl and Alkynyl Iodides to a Au^I Complex