Metal-catalyzed carbonylation

Transition-metal catalyzed carbonylation of 1-perfluoroalkyl-substituted 2-iodoalkanes has been carried out in aqueous media to give carboxylic acids with a perfluoroalkyl substituent at the (J> position (Eq. 6.28).61... 

Abstract Development in the field of transition metal-catalyzed carbonylation of epoxides is reviewed. The reaction is an efficient method to synthesize a wide range of / -hydroxy carbonyl compounds such as small synthetic synthons and polymeric materials. The reaction modes featured in this chapter are ring-expansion carbonylation, alternating copolymerization, formylation, alkoxycarbonylation, and aminocarbonylation. 

Transition-metal-catalyzed carbonylations are of great importance in organic synthesis as a powerful tool to prepare a variety of carbony compounds. Among them, hydroformylation has been most extensively studied not only in the laboratory but also in industry. Industrial production of alkanals from 1-alkenes... 

Halcon has developed a new non-noble metal catalyst for methanol reductive carbonylation (32). It is formed under more moderate conditions (1200 psi, 120 C) and permits a selective reaction at only 1200-1800 psi of reaction pressure. Under these conditions, the catalyst s activity is comparable with noble metal catalyzed carbonylations. The conversion rate is 1.5-3.0 mol/l.hr. and acetaldehyde selectivity is 85%. In concentrated solutions, a considerable portion of product acetaldehyde (20-40%) is converted to its acetal. The acetal can be readily hydrolyzed back to acetaldehyde at 100-150 without catalyst (33). Acetal formation is actually beneficial through prevention of undesirable acetaldehyde condensation reactions. 

This review deals with the recent developments in the transition metal-catalyzed carbonylation reaction, especially hydroformylation, hydrocarbonylation, and oxidative hydrocarbonylation reactions of olefins, referring to literature since 1994. Because of the importance of carbonyl functionality in organic chemistry and the ideal atom efficiency of... 

CASE STUDY TRANSITION-METAL CATALYZED CARBONYLATION... 

Case Study Transition-Metal Catalyzed Carbonylation of Methanol... 

Figure 8.5 Catalytic cycle for the metal-catalyzed carbonylation of methanol, with the reductive elimination step highlighted. In the case of iridium, the diiodotricarbonyl species has also been suggested as a possible precursor to reductive elimination. What aie the issues of stereochemistry associated with the intermediates What special basis-set requirements will be involved in modeling this system ...

The transition metal-catalyzed carbonylation reaction is an important pathway to introduce an extra carbon atom in the heterocyclic ring. Lu and Alper used this reaction with recyclable palladium-complexed dendrimers on silica to synthesize 1,4-oxazepines. Remarkably, starting from iodinated arylamine 121, as a substrate for the intramolecular carbonylation, quantitative conversion to the pentacyclic heterocycle 122, containing two oxazepine rings, was achieved (Equation 11) <2005JA14776>. 

Metal complexes enable one to employ molecules that are thermally unreactive toward cycloadditions by taking advantage of their ability to be activated through complexation. Most of the molecules activated by transition-metal complexes involve C-C unsaturated bonds such as alkynes, alkenes, 1,3-dienes, allenes, and cyclopropanes. In contrast, carbonyl functionalities such as aldehydes, ketones, esters, and imines seldom participate in transition-metal-catalyzed carbonylative cycloaddition reactions. Recently, such a transformation was reported via the use of ruthenium complexes. 

Ruthenium is not an effective catalyst in many catalytic reactions however, it is becoming one of the most novel and promising metals with respect to organic synthesis. The recent discovery of C-H bond activation reactions [38] and alkene metathesis reactions [54] catalyzed by ruthenium complexes has had a significant impact on organic chemistry as well as other chemically related fields, such as natural product synthesis, polymer science, and material sciences. Similarly, carbonylation reactions catalyzed by ruthenium complexes have also been extensively developed. Compared with other transition-metal-catalyzed carbonylation reactions, ruthenium complexes are known to catalyze a few carbonylation reactions, such as hydroformylation or the reductive carbonylation of nitro compounds. In the last 10 years, a number of new carbonylation reactions have been discovered, as described in this chapter. We ex-... 

Transition-metal-catalyzed carbonylation reactions are useful one-carbon homologation techniques in organic synthesis, involving industrially important processes, for example, Fisher-Tropsch reaction, Monsanto acetic acid process, and hydroformylation (oxo reaction) [25]. 

The metal-catalyzed carbonylation reactions of olefins have been well documented and extensively reviewed. The complementary area of alcohol carbonylation reactions has been a slower developing field, but over the past 10 years it has been the subject of many investigations and we feel that it is an appropriate time to review our understanding of the chemistry involved. In doing so, we also hope to expose areas in which further study is necessary. 

Figure 7 The older, classical six-step synthesis of ibuprofen not involving metal-catalyzed carbonylation.

Transition-metal-catalyzed carbonylation of an iodide in the presence of an alcohol or water gives the ester or acid, respectively. Bis(triphenylphosphanyl)palladium dichloride and octa-carbonyldicobalt are efficient catalysts. Starting from diiodidc 16, dicarboxylic ester 17 or dicarboxylic acid 18 are obtained in good to excellent yield.The formation of 18 is a good alternative to the hydrolysis of an ester to an acid. ... 

A further development of the Reppe acrylic acid synthesis is the reaction, described in recent literature, of the noble metal-catalyzed carbonylation of higher acetylenes to give the corresponding acrylic acid derivatives. Thus, for example, the Pd-catalyzed carbonylation of propyne (eq. (10)) in the presence of methanol leads directly to methyl methacrylate [23]. Based on this work. Shell has developed a new production process for methyl methacrylate [24]. The propyne required can be isolated from the product streams from crackers, (cf. Section 2.3.2.3). 

The transition metal-catalyzed carbonylation of allylic compounds has been developed as a simple extension of carbonylations of benzylic derivatives. In this respect nickel cyanide has been used as a catalyst precursor for carbonylation of allyl... 

The transition-metal-catalyzed carbonylation reaction has been extensively investigated, and especially the carbonylative ring expansion reaction of strained heterocycles has been shown to be a useful and efficient procedure to synthesize lactams, lactones, and thiolactones.203 The carbonylation of epoxides and aziridines 450 is a powerful tool to construct the /Mactone and /Mactam skeletons 451 (Scheme 142).204 This type of reactions can be regarded as a hetero-[3 + 1]-cycloaddition. 

Few examples of stereoselective transition metal catalyzed carbonylative multicomponent cycloadditions leading to other than five-membered rings have been reported1 72. Typical is the reaction of 3,3-dimethylcyclopropene with carbon monoxide, catalyzed by a palladium(O) complex, to stereoselectively form hexamcthyltrishomotropone as a tetracyclic adduct l73. 

Alper, H., Metal Catalyzed Carbonylation and Oxidation-Reduction Reactions, Pure Appl.Chem., 60, 35 (1988). 

Transition-metal catalyzed carbonylation of 1-perfluoroalkyl-substituted... 

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