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Oxidative addition electrophilic

This chapter presents developments in the activation and functionalization of carbon-hydrogen bonds that have been discovered since 1993. Major breakthroughs in hydrocarbon activation appeared in the early 1980s, and in the following decade, an explosion of discoveries was seen in new examples of metal complexes that could activate C-H bonds. Mechanisms for cleavage included oxidative addition, electrophilic cleavage, radical H-abstraction, and metal atom reactions, and several texts are available that summarize the first decade of this work. " ... [Pg.699]

The nature of the C-H activation step has been widely discussed in several studies. There are three accepted pathways for the mechanism of the C-H cleavage oxidative addition, electrophilic substitution, and concerted metallation-deprotonation (CMD). ° The reaction of [RuCl2(arene)]2 complexes with heteroarenes or benzylamines in the presence of a base has been shown to favour the formation of stable ruthenacycles. This evidence confirmed the crucial role of the base in the... [Pg.68]

Oxidative addition—Reaction of the carbon electrophile with palladium-(0) complex 5 to give a palladium-(II) complex 6. [Pg.265]

The electrophilic character of the palladium atom in the complexes formed by oxidative addition of aryl halides and alkenyl halides to palladium(o) complexes can be exploited in useful ways. [Pg.573]

In the direct coupling reaction (Scheme 30), it is presumed that a coordinatively unsaturated 14-electron palladium(o) complex such as bis(triphenylphosphine)palladium(o) serves as the catalytically active species. An oxidative addition of the organic electrophile, RX, to the palladium catalyst generates a 16-electron palladium(n) complex A, which then participates in a transmetalation with the organotin reagent (see A—>B). After facile trans- cis isomerization (see B— C), a reductive elimination releases the primary organic product D and regenerates the catalytically active palladium ) complex. [Pg.592]

Thus, in spite of its lack of reactivity, iodine reacts chemically with unsaturated compounds, whereby the silica gel of the TLC layer can sometimes be assigned a catalytic role [11, 12]. Irreversible oxidations and electrophilic substitution and addition reactions have been observed on the interaction of iodine with tertiary nitrogen compounds such reactions possibly depend on particular steric relationships or are favored by particular functional groups [13, 14]. [Pg.147]

The complex that is formed can dissociate to form a cation (n-tr-complex) and an iodide anion, with the iodide ion reacting with the excess iodine molecules that are present. In addition the decomposition of the n-cr-complex can lead to the formation of highly reactive iodine cations, which can initiate further reactions — e.g. oxidations or electrophilic substitutions of aromatic systems [11, 13]. [Pg.147]

Iodine is enriched to a greater extent in chromatogram zones coated with lipophilic substances than it is in a hydrophilic environment. Hence, iodine is only physically dissolved or adsorbed. Occasionally a chemical reaction also takes place, such as, for example, with estrone [19] (cf. Iodine Reagents ). In general it may be said that the longer the iodine effect lasts the more oxidations, additions or electrophilic substitutions are to be expected. [Pg.150]

The platinum(0) complex [Pt(PhNO)(PPh3)2] reacts with C02 to afford the metallacyclic nitroso species [Pt 0N(Ph)C(0)0 (PPh3)2] (60), the first example of insertion of C02 into a Pt—N bond.186 Other unsaturated carbon compounds such as CS2 and electrophilic alkenes and alkynes react similarly. The diradical peril uoro-/V,/V -dimethylethane-l,2-bis(amino-oxyl) reacts readily by oxidative addition to the platinum(0) precursor Pt(PPh3)4 to afford the corresponding platinum(lI)-nitroso complex containing a seven-membered chelate ring (61). The resulting complex is stable in air for several days at room temperature.187... [Pg.698]

As Pd° and Ni° are capable of oxidative addition by C—S bonds, organosulfur compounds can take part in cross-coupling reactions as electrophilic reagents. Due to the formation of stable Pd—S... [Pg.338]

Simple Pd salts and complexes which contain neither phosphines nor any other deliberately added ligands are well known to provide catalytic activity in cross-coupling reactions. Such catalytic systems (often referred to as ligand-free catalysts ) often require the use of water as a component of the reaction medium.17 In the majority of cases such systems are applicable to electrophiles easily undergoing the oxidative addition (aryl iodides and activated bromides), although there are examples of effective reactions with unactivated substrates (electron-rich aiyl bromides, and some aryl chlorides).18,470... [Pg.356]

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See also in sourсe #XX -- [ Pg.315 , Pg.317 ]



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Electrophilic attack oxidative addition

Electrophilic oxidation

Kinetic studies, alkyl electrophile oxidative addition

Oxidants electrophilic

Reactions Involving Oxidative Addition of Allylic Electrophiles

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