Amination Intermolecular

Iron phthalocyanine is an efficient catalyst for intermolecular amination of saturated C-H bonds. With 1 mol% iron phthalocyanine and 1.5 equiv. PhlNTs, amination of benzylic, tertiary, and ally lie C-H bond have been achieved in good yields (Scheme 31). With cyclohexene as substrate, the allylic C-H bond amination product was obtained in 75% yield, and the aziridination product was found in minor amount (17% yield) [79]. 

Katritzky developed a facile synthesis of l,2-diaryl(heteroaryl)pyrroles in a two-step procedure from A-allylbenzotriazoles via intramolecular oxidative cyclization in the presence of a Pd(II) catalyst <00JOC8074>. Thus, treating A-allylbenzotriazole (21) with n-butyllithium followed by addition of a diarylimine yielded the (2-benzotriazolyl-l-arylbut-3-en)anilines 22 which were subsequently heated in the presence of the system Pd(OAc)2-PPh3-CUCI2-K2CO3 to undergo intermolecular amination with simultaneous oxidation of the intermediate 3-pyrroline to the pyrroles 23. 

Intermolecular amination experiments described by Muller using 02NC,5H4S02N=IPh (NsN=IPh) as the nitrene source underscore the value of certain rhodium(II) catalysts for C-H insertion (Scheme 17.5) [12, 34—36]. In accord with Breslow s finding, dirhodium carboxylates were demonstrated to catalyze the amination of allylic, benzylic, and adamantyl substrates. Notably, structurally related tetracarboxamide dimers fail to give... 

Oxidative amination of carbamates, sulfamates, and sulfonamides has broad utility for the preparation of value-added heterocyclic structures. Both dimeric rhodium complexes and ruthenium porphyrins are effective catalysts for saturated C-H bond functionalization, affording products in high yields and with excellent chemo-, regio-, and diastereocontrol. Initial efforts to develop these methods into practical asymmetric processes give promise that such achievements will someday be realized. Alkene aziridina-tion using sulfamates and sulfonamides has witnessed dramatic improvement with the advent of protocols that obviate use of capricious iminoiodinanes. Complexes of rhodium, ruthenium, and copper all enjoy application in this context and will continue to evolve as both achiral and chiral catalysts for aziridine synthesis. The invention of new methods for the selective and efficient intermolecular amination of saturated C-H bonds still stands, however, as one of the great challenges. 

Replacement of the 2-naphthyl groups by 2-dimethylaminomethylphenyl groups in H2(npOEP) also led to a rhodium porphyrin being able to extract leucine from water, however, the situation is complicated by dimerization of the rhodium porphyrin due to intermolecular amine-rhodium bonding [286]. A rhodium complex of a trifunctional chiral bis(2-hydroxynaphthyl)porphyrin related to the above-mentioned RhCl(npOEP) system was used to separate diastereomers formed via two-point fixation of amino acids [287],... 

The aziridination of olefins, which forms a three-membered nitrogen heterocycle, is one important nitrene transfer reaction. Aziridination shows an advantage over the more classic olefin hydroamination reaction in some syntheses because the three-membered ring that is formed can be further modified. More recently, intramolecular amidation and intermolecular amination of C-H bonds into new C-N bonds has been developed with various metal catalysts. When compared with conventional substitution or nucleophilic addition routes, the direct formation of C-N bonds from C-H bonds reduces the number of synthetic steps and improves overall efficiency.2 After early work on iron, manganese, and copper,6 Muller, Dauban, Dodd, Du Bois, and others developed different dirhodium carboxylate catalyst systems that catalyze C-N bond formation starting from nitrene precursors,7 while Che studied a ruthenium porphyrin catalyst system extensively.8 The rhodium and ruthenium systems are... 

More importantly, this silver system catalyzes the intermolecular amination of hydrocarbons, as shown in Table 6.3. In addition to animating weaker benzylic C-H bonds, stronger aliphatic C-H bonds such as those in cyclohexane were also reactive. Although yields with more inert hydrocarbons were modest with the bathophenan-throline system, the discovery of the first silver-catalyzed intermolecular amination opens opportunities for further developments. This reaction favored tertiary cyclic sp3 C-H bonds over secondary cyclic sp3 C-H bonds, and showed limited success with simple linear alkanes. No conversion was observed with any aromatic C-H bonds. The compound NsNH2 was tested as the nitrene precursor with different oxidants. The use of PhI(OAc)2 as oxidant gave the expected amination product with a lower yield, while persulfate and peroxides showed no reactivity. 

Scheme 46 Sequential intramolecular amination-insertion-intermolecular amination [102]...

Scheme 49 Sequential intramolecular amination-intermolecular amination [104]...

Intermolecular aminations of pyridine 1-oxides with amide ions have not been as well investigated as those of the neutral molecules. Most of the examples studied involve halo JV-oxides, where a competition between Type B behaviour and pyridyne reaction compete (Scheme 91) (67RTC655). 

We begin by examining the computational results for the intermolecular amine-catalyzed aldol reaction. The most likely mechanisms posit an enamine intermediate that then attacks an aldehyde to produce the aldol product. Boyd and coworkers ° examined this entire reaction pathway for the reaction of acetone and... 

This new disilver system was found to be more active in intramolecular amidation reactivity compared to the original [Ag2(t-Bu3tpy)2] catalyst, showing both increased yields and decreased temperature (from 82 to 50°C). More importantly, this system was able to catalyze the intermolecular amination reaction of both benzylic and inert aliphatic C—Hbonds.Asimilar copper system reported similar activity however, it was only able to aminate benzylic C—H bonds (Table I). In the silver case, it was found that substitutions on the 2 and 9 positions of the phenanthroline shut down the reactivity of the catalyst, suggesting the importance of keeping a disilver core structure. 

In the sense of an intermolecular amination with heterocyclic amidine derivatives, such as amino azines and diazines, and 2-chloro-3-iodopyridines followed by an intramolecular amination, Maes and coworkers [93] have established a facile synthesis of dipyrido[l,2-a 3 2 -d]imidazole and its benzo-and aza-analogs 101-106 (Scheme 36). 

Intramolecular animations of the benzyne intermediates are also possible, although the yields are lower than those of the intermolecular aminations. For example, iV-methyl tctra-hydroquinoline was formed from Af-methyl-3-(m-chlorophenyl)propylamine in 49% yield upon reaction with the combination of phenyl lithium and lithium diethylamide. The yield from the ortho-chloro analog was much lower, likely because the formation of the benzyne intermediates is hindered by steric effects in o-chloro compounds24. 

Scheme 12.7 Rhodium(ll) catalyzed intermolecular amination using TcesNH2.

A remarkably efficient FeCl2-catalyzed intermolecular amination of simple benzylic substrates has been described (Fig. 15) [76]. These same authors have also noted the ability of CuBr to operate in a similar capacity [77]. iV-Bromosucci-mide (NBS) is used as the oxidant together with either a carboxamide or sulfonamide starting material. The /V-brominated amide purportedly reacts with FeCF to generate an Fe nitrene species that is capable of oxidizing benzylic C-H bonds, though evidence for such a mechanism is absent from the discussion. If a nitrenoid pathway is indeed operative, one might expect isocyanate formation to compete... 

Dirhodium tetracarboxylate complexes are among the most successful and well-studied catalysts for C-H amination. Early work by Miiller provided support for a concerted asynchronous reaction mechanism for intermolecular amination reactions using Rh2(OAc)4 and NsN=IPh [22-24]. Du Bois and coworkers have shown that carbamate and sulfamate esters can engage in oxidative cyclization reactions promoted by these same types of Rh complexes using PhI(OAc)2 as the terminal oxidant [93-96]. Mechanistic studies, which include Hammett analysis (p = 0.55... 

While the majority of Rh-catalyzed C-H amination processes employ hyperva-lent iodine oxidants and sulfonamide derivatives, Lebel and coworkers have demonstrated that /V-tosyloxycarbamates will engage with catalytic Rh2(02CCPh3)4 and K2CC>3 to afford products of intramolecular C-H insertion (Fig. 22) [104, 5, 105]. Similar to Du Bois earlier work involving oxidative cyclization with 1 ° carbamates [94], the /V-tosyloxy derivatives display a strong bias for oxazolidinone formation. Selectivity trends and other mechanistic data support a reaction pathway involving a Rh-nitrene oxidant. Intermolecular amination of simple benzylic substrates... 

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