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Reaction of Diazo

Although the most general cycloaddition reaction of diazo compounds is that they react as 1,3-dipoles, recently some reactions have been reported in which they react as 1,2-dipoles,... [Pg.49]

Pyrido[],2-a]pyrimidine-3,7-dicarboxylate 396 was also obtained in the reaction of diazo compound 395 and methyl vinyl ketone in boiling benzene in the presence of a catalytic amount of ruthenium acetate. [Pg.251]

Nucleophilic processes that generate chloroindoles are largely confined to the displacements of oxy functions and Sandmeyer reactions of diazo-nium salts [81 H( 15)547]. A low yield of 2-chloroindole was obtained by a reaction sequence that involved treatment of oxindole with phosphoryl chloride, and then treatment of the Vilsmeier salt with sodium bicarbonate [66JOC2627 86H(24)2879]. It is, however, much better to prepare this compound from 2-lithioindole (92JOC2495). With phosphoryl chloride and dimethylformamide ethyl l-hydroxyindole-2-carboxylate failed to give the expected 3-formyl derivative. Instead there was a 50% yield of the 3-chloro derivative (84CPB3678). Diazonium salts have been used as precursors in... [Pg.259]

Aromatic diazonium compounds became industrially very important after Griess (1866a) discovered in 1861/62 the azo coupling reaction, by which the first azo dye was made by C. A. Martius in 1865 (see review by Smith, 1907). This is still the most important industrial reaction of diazo compounds. Hantzsch and Traumann (1888) discovered that a heteroaromatic amine, namely 2-aminothiazole, can also be diazotized. Heteroaromatic diazonium compounds were, however, only used for azo dyes much later, to a small extent in the 1930 s, but intensively since the 1950 s (see Zollinger, 1991, Ch. 7). [Pg.4]

Acid-Base and Isomerization Reactions of Diazo Compounds in Water... [Pg.89]

Dediazoniation refers to all those reactions of diazo and diazonium compounds in which an N2 molecule is one of the products. The designation of the entering group precedes the term dediazoniation, e. g., azido-de-diazoniation for the substitution of the diazonio group by an azido group, or aryl-de-diazoniation for a Gomberg-Bachmann reaction. The IUPAC system says nothing about the mechanism of a reaction (see Sec. 1.2). For example, the first of the two dediazoniations mentioned is a heterolytic substitution, whereas the second is a homolytic substitution. [Pg.161]

Carbonyl oxides (formed by the reaction of diazo compounds with singlet oxygen) may also be used to oxidize sulphoxides74. The corresponding sulphone is formed in reasonable yields and the reaction may be carried out in the presence of the sulphide functionality. The reaction proceeds as shown in equation (21) and involves initial nucleophilic attack by the carbonyl oxide on the sulphoxide sulphur atom followed by the facile departure of the carbonyl compound yielding the required sulphone. [Pg.977]

The reaction of diazo compounds with amines is similar to 10-15. The acidity of amines is not great enough for the reaction to proceed without a catalyst, but BF3, which converts the amine to the F3B-NHR2 complex, enables the reaction to take place. Cuprous cyanide can also be used as a catalyst. The most common substrate is diazomethane, in which case this is a method for the methylation of amines. Ammonia has been used as the amine but, as in the case of 10-44, mixtures of primary, secondary, and tertiary amines are obtained. Primary aliphatic amines give mixtures of secondary and tertiary amines. Secondary amines give successful alkylation. Primary aromatic amines also give the reaction, but diaryl or arylalkyl-amines react very poorly. [Pg.504]

Alkylation and hydrolysis of imines alkylation of aldehydes 10-107 Alkylation and hydrolysis of dithianes 10-108 Alkylation and hydrolysis of oxazines and similar compounds 10-109 Reaction of diazo aldehydes with boranes... [Pg.1644]

Reaction of diazo ketones with hydrohalic acids... [Pg.1670]

Reaction of diazo compounds with a variety of transition metal compounds leads to evolution of nitrogen and formation of products of the same general type as those formed by thermal and photochemical decomposition of diazoalkanes. These transition... [Pg.912]

As it is known from experience that the metal carbenes operating in most catalyzed reactions of diazo compounds are electrophilic species, it comes as no surprise that only a few examples of efficient catalyzed cyclopropanation of electron-poor alkeiies exist. One of those examples is the copper-catalyzed cyclopropanation of methyl vinyl ketone with ethyl diazoacetate 140), contrasting with the 2-pyrazoline formation in the purely thermal reaction (for failures to obtain cyclopropanes by copper-catalyzed decomposition of diazoesters, see Table VIII in Ref. 6). [Pg.125]

Metal catalysed or photochemically promoted reactions of diazo compounds with diketene gave cyclopropanespiro-P-lactones 25 and 26 <00JCS(P1)2109>. [Pg.73]

A different method of generating pyrazoles was reported by Aggarwal et al. and is shown in Scheme 47 [90]. Reaction of diazo compound 176 (derived from benzaldehyde 165) with an alkynylbenzene enabled cyclization to pyrazole 177. [Pg.57]

Furthermore, cyclopropane structures have often served as intermediates in organic synthesis. For these reasons, olefin cyclopropanation has proved to be a useful tool for synthetic organic chemists. This has led to the development of several methods for cyclopropanation reactions,91 including the metal-catalyzed reactions of diazo compounds with olefins, as well as the Simmons-Smith reaction. [Pg.313]

The Wolff rearrangement is well known as a reaction of diazo ketones, i.e. of diazoalkanes with a carbonyl group in a-position. Reaction 34 demonstrates that diazotized aminonaphthols are mesomeric with naphthoquinone diazides (48b) and that they have therefore also the character of quinonoid diazo ketones (see also Section II.C of this chapter). Wolff rearrangements take place also thermally and catalyzed by silver ions. [Pg.658]

As with any modern review of the chemical Hterature, the subject discussed in this chapter touches upon topics that are the focus of related books and articles. For example, there is a well recognized tome on the 1,3-dipolar cycloaddition reaction that is an excellent introduction to the many varieties of this transformation [1]. More specific reviews involving the use of rhodium(II) in carbonyl ylide cycloadditions [2] and intramolecular 1,3-dipolar cycloaddition reactions have also appeared [3, 4]. The use of rhodium for the creation and reaction of carbenes as electrophilic species [5, 6], their use in intramolecular carbenoid reactions [7], and the formation of ylides via the reaction with heteroatoms have also been described [8]. Reviews of rhodium(II) ligand-based chemoselectivity [9], rhodium(11)-mediated macrocyclizations [10], and asymmetric rho-dium(II)-carbene transformations [11, 12] detail the multiple aspects of control and applications that make this such a powerful chemical transformation. In addition to these reviews, several books have appeared since around 1998 describing the catalytic reactions of diazo compounds [13], cycloaddition reactions in organic synthesis [14], and synthetic applications of the 1,3-dipolar cycloaddition [15]. [Pg.433]

The synthesis of thiiranes with subsequent elimination of sulfur is an important procedure for the creation of C=C bonds, especially for sterically crowded systems (47,48), in analogy to the Eschenmoser-sulfide-contraction reaction (116). The spontaneous elimination of sulfur was observed in the rhodium-catalyzed reaction of diazo compound 62, which gave rise to the formation of cyclopentenone derivative 63 (117) (Scheme 5.24). A synthesis of indolizomycin was published by Danishefsky and co-workers (118) and involved a similar annulation step. In this case, however, the desulfurization reaction was achieved by treatment with Raney Ni. [Pg.330]

The first effective enantioselective 1,3-dipolar cycloaddition of diazoalkanes catalyzed by chiral Lewis acids was reported in the year 20(X) (139). Under catalysis using zinc or magnesium complexes and the chiral ligand (R,/ )-DBFOX/Ph, the reaction of diazo(trimethylsilyl)methane with 3-alkenoyl-2-oxazolidin-2-one 75 (R = H) gave the desilylated A -pyrazolines (4S,5R)-76 (R =Me 87% yield, 99% ee at 40 °C) (Scheme 8.18). Simple replacement of the oxazohdinone with the 4,4-dimethyloxazolidinone ring resulted in the formation of (4R,5S)-77 (R = Me 75% yield, 97% ee at -78 °C). [Pg.555]

In certain cases, 4,5-dihydro-1,2,3-diazaphospholes rather than 3,5-dihydro-1,2,4-diazaphospholes are formed from the [3-1-2] cycloaddition reaction of diazo compounds with phosphaalkenes. This regiochemistry was encountered in the reaction of (mesityl)P=CPh2 with diazodiphenylmethane and was attributed to steric factors (164). Electronic factors may explain the orientation found in the... [Pg.561]

Related investigations of the reaction of diazo compounds with alkyl-substituted thioketones [R2C=S, R = Et, Pr, i-Pi, f-Bu (203) 2,2,4,4-tetramethylcyclobutan-l-one-3-thione (204), and adamantanethione (205,206)] showed that the 3,3-dialkyl-... [Pg.570]

Thiiranes that are obtained from the reaction of diazo dipoles with C=S bonds can be transformed into alkenes by desulfurization. This reaction sometimes occurs spontaneously, but more often is achieved by treatment with phosphanes (225). This important methodology represents an alternative for the W ittig reaction and has high merit for the preparation of stericaUy hindered (226-229) and uncommonly functionalized alkenes (214,216,217,230,231). Some examples are given in... [Pg.574]

Diazo compounds generally do not undergo [3 + 2] cycloaddition with unactivated nitriles under purely thermal, noncatalyzed conditions. The formation of 4-R-5-trimethylsilyl-l//-l,2,3-triazoles from the reaction of diazo(trimethylsilyl)-methyl lithium and a broad range of nitriles [RCN R = alkyl, aryl, SEt, OPh, PO(OEt)2] appears to be an exception, but this reaction most likely occurs in a stepwise manner with initial nucleophilic attack at the nitrile (275). [Pg.586]

Second, the formation of the diazobenzazocine derivatives 264a-e represents an unprecedented reaction for intramolecular 1,3-dipolar cycloaddition reactions of diazo compounds. Note that diazo compounds such as 247a (305) and 248 (307) also give bridged diazabicyclo[n.2.1]alkenes rather than fused diazabi-cyclo[ .3.0]aUcenes upon treatment with Bp3-etherate, but these transformations... [Pg.596]

Intramolecular [3 + 2] cycloaddition reactions of diazo dipoles across carbon-carbon triple bonds are rare. The first reported example involves the quantitative... [Pg.601]

Padwa et al. (38) also explored the rhodium-catalyzed reaction of diazo imides to form isomtinchnones (Scheme 10.10). Thus, 70 smoothly forms isomtinchnones 71 that can be intercepted in high yield with DM AD to give furans 73, following loss of methyl isocyanate from the cycloadducts 72. [Pg.691]

Mark Elliott was born in Doncaster. He studied in Loughborough, where he obtained a BSc in 1991 and a PhD in 1994 working with Prof. C. J. Moody on transition-metal-catalyzed reactions of diazo compounds. After postdoctoral work with Prof A. Pfaltz, initially in Basel under the auspices of a Royal Society European Exchange Fellowship, and later at the Max-Planck Institute in Miilheim, he returned to the UK in 1996 to take up his current position as lecturer in chemistry at Cardiff His reseach interests include asymmetric heterocyclic chemistry, asymmetric catalysis, and natural product chemistry. [Pg.509]

A recent example of this intramolecular tandem transformation is the Rh(ii)-catalyzed reaction of diazo keto ester 71. Depending on the structure of the diazo compound, a push-pull dipole intermediate derived from 71 can be trapped either by a tethered vinyl group (when n = 0) or by an indole 7r-bond (when n=l) (Equation (11)). This result clearly demonstrates a critical role of the conformation of the cycloaddition transition state. [Pg.160]


See other pages where Reaction of Diazo is mentioned: [Pg.380]    [Pg.369]    [Pg.210]    [Pg.210]    [Pg.238]    [Pg.186]    [Pg.305]    [Pg.342]    [Pg.347]    [Pg.570]    [Pg.575]    [Pg.580]   


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Acid-Base and Isomerization Reactions of Diazo Compounds in Water

Acids, reactions of aliphatic diazo

Acids, reactions of aliphatic diazo compounds with

Diazo reaction

Diazotization, of o-amino- -nitrobiphenyl Diazo transfer” reaction

Reaction Replacement of a Diazo-Group by Iodine

Reaction with Diazo Compounds Synthesis of 1-Imino-Pyrrole Derivatives

Reactions involving replacement of the diazo group

Reactions of Azo-, Diazo-, and Related Compounds

Reactions of Glutaminase with 6-Diazo-5-oxonorleucine

Reactions of a-Diazo Ketones

Reactions of diazo compounds

Reactions of diazo esters

Reactions of diazo ketones

Rh and Pd-catalysed Reactions of Diazo Compounds via Electrophilic Carbene Complexes

Transition Metal-Catalyzed Reactions of Diazo Compounds

Undesirable side reactions of diazo compounds

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