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Carbon-hydrogen bonds arylations

This review focuses on the synthetic applications of carbon-hydrogen bond arylation by aryl halides, concentrating on palladium and copper catalysis. Mechanistic issues will be covered only briefly. Some examples of carbon-hydrogen... [Pg.58]

Copper is underutilized as a catalyst for C-H bond functionalization even though it was the first transition metal shown to promote carbon-hydrogen bond arylation. In 1941, Steinkopf, Leitsmann, and Hofmann showed that Ullmann reaction of 2-iodothiophene produces substantial amounts of tritiophene [88], This reaction necessarily involves one C-H bond arylation step. Subsequently, it has been shown that electron-deficient arenes such as polynitrobenzenes and pentafluorobenzene,... [Pg.76]

Copper was the first transition-metal shown to promote carbon-hydrogen bond arylation. " Daugulis et al. illustrate the use of copper in the arylation of acidic... [Pg.175]

The carbon-halogen bonds of aryl halides are both shorter and stronger than the carbon-halogen bonds of alkyl halides In this respect as well as m their chemical behavior they resemble vinyl halides more than alkyl halides A hybridization effect seems to be responsible because as the data m Table 23 1 indicate similar patterns are seen for both carbon-hydrogen bonds and carbon-halogen bonds An increase m s... [Pg.971]

A significant modification in the stereochemistry is observed when the double bond is conjugated with a group that can stabilize a carbocation intermediate. Most of the specific cases involve an aryl substituent. Examples of alkenes that give primarily syn addition are Z- and -l-phenylpropene, Z- and - -<-butylstyrene, l-phenyl-4-/-butylcyclohex-ene, and indene. The mechanism proposed for these additions features an ion pair as the key intermediate. Because of the greater stability of the carbocations in these molecules, concerted attack by halide ion is not required for complete carbon-hydrogen bond formation. If the ion pair formed by alkene protonation collapses to product faster than reorientation takes place, the result will be syn addition, since the proton and halide ion are initially on the same side of the molecule. [Pg.355]

This chapter mainly treats transition metal-catalyzed direct functionalization of carbon-hydrogen bonds in organic compounds. This methodology is emphasized by focusing on important functionalizations for synthetic use. The contents reviewed here are as follows (i) alkylation of C-H bonds, (ii) alkenylation of C-H bonds, (iii) arylation of C-H bonds, (iv) carbonylation of C-H bonds, (v) hydroxylation and the related reactions, and (vi) other reactions and applications. [Pg.213]

Oxidative attack on a carbon-hydrogen bond of an alkyl group a to a nitrogen atom is not restricted to saturated aliphatic amines. In fact X in an X-N-CH- structural subunit can be virtually any common atomic grouping that can be found in stable organic molecules. For example, w-carbon hydrogens of Aralkyl-substituted aromatic cyclic amines (119), aryl amines (120), amides (121), amidines (122), A-nitrosodialkylamines (123), etc. are all subject to oxidative attack, carbinolamine formation, and in most cases release of an aldehyde or ketone depending on the substitution pattern (1° or 2°)... [Pg.79]

There are not many drugs that are alkynes however, one good example is ethinyl estradiol (Fig. 4.6). Even though ethinyl estradiol is not an aryl alkyne, the acetylenic group is attached to a tertiary carbon and not adjacent to an a-carbon-hydrogen bond. [Pg.90]

The feasibility of hydrogen abstraction at the peptidyl a-carbon hydrogen bond by 1,4-aryl diradicals has been determined by examining a model reaction, i.e. abstraction of deuterium from dideuterioglycine by aryl radicals. The results have biological implications for the reactivity of the enediyne anti-tumour antibiotics with proteins. The non-Arrhenius behaviour of hydrogen-abstraction reactions by radicals has been investigated. For a number of reactions studied the enthalpy of activation was found either to increase or to decrease as a function of temperature. [Pg.131]

As to the next step, namely, the reaction of aryl radicals with nucleophiles, we should take into account the fact that air molecular orbital, which initially accommodates the incoming electron, is available in the aryl halide. The electron is subsequently transferred in-tramolecularly from the it to the o molecular orbital of the carbon-halogen bond. Aryl radicals effectively scavenge H atoms. Therefore, an abstraction of a hydrogen atom from the solvent may occur. However, in the case of nucleophiles that can act as effective traps of aryl radicals, the addition of a nucleophile to the phenyl radical takes place. At this point, let us focus on the step of addition of the nucleophile (Y ) to the intermediate radical (Ph). When a new a bond begins to form between the sp3 carbon-centered radical (H5C6) and... [Pg.215]

The other type of carbamoyllithiums IIIc can also be prepared by reaction of CO with (V-lithioketimines, resulting from the addition of rert-butyllithium to aryl cyanides 10477,102. These intermediates 105 underwent selective cyclization to give 177-isoindole derivatives 10677 and six- (107)102 or seven-membered (108)102 cyclic products (Scheme 27). Compounds 107 result either by insertion of the carbene structure into the benzylic carbon-hydrogen bond, as in the case of carbamoyllithiums96, or by intramolecular protonation. [Pg.155]

Carbon-hydrogen bonds are commonly formed by reductive elimination when an alkyl or aryl group and a hydride occupy mutually cis positions. Although intramolecular oxidative additions of C—H bonds and reactions of activated C—H bonds are well known for Ni, Pd, and Pt, additions of C—H bonds in simple alkanes and arenes are less common. [Pg.493]

Since aryl halides and aryl metals are typically made in one or more steps from hydrocarbons, carbon-hydrogen bond use as a functional group would result in... [Pg.57]

Kakiuchi F, Matsuura Y, Kan S, Chatani N (2005) A RuH2(CO)(PPh3)3-catalyzed regioselective arylation of aromatic ketones with arylboronates via carbon-hydrogen bond cleavage. 1 Am Chem Soc 127 5936-5945... [Pg.279]

Ueno S, Mizushima E, Chatani N, Kakiuchi F (2006) Direct observation of the oxidative addition of the aryl carbon-oxygen bond to a ruthenium complex and consideration of the relative reactivity between aryl carbon-oxygen and aryl carbon-hydrogen bonds. J Am Chem Soc 128 16515-16517... [Pg.279]

The RiiH2(CO)(PPh3)3-CATALYSED ALKYLATION, ALKENYLATTON AND ARYLATION OL AROMATIC KETONES VIA CARBON-HYDROGEN BOND CLEAVAGE... [Pg.13]

See other pages where Carbon-hydrogen bonds arylations is mentioned: [Pg.77]    [Pg.77]    [Pg.176]    [Pg.160]    [Pg.204]    [Pg.303]    [Pg.325]    [Pg.78]    [Pg.219]    [Pg.1019]    [Pg.1019]    [Pg.344]    [Pg.214]    [Pg.183]    [Pg.274]    [Pg.296]    [Pg.75]    [Pg.3]    [Pg.465]    [Pg.11]    [Pg.179]    [Pg.1316]    [Pg.4985]    [Pg.186]    [Pg.1318]    [Pg.1318]    [Pg.296]    [Pg.57]    [Pg.82]   


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Carbon-hydrogen bond activation, aryls

Carbon-hydrogen bonds

Carbon-hydrogen bonds aryl ethers

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