Hydroxycarbonylation reactions

Several reports covering carbonylation and other aspects of homogeneous catalysis include the hydroxycarbonylation reaction with palladium systems.310,311,629 A review summarizing the results and findings about the mechanism has been published.630 The carbonylation of vinyl... 

Several Pd11 complexes with thiolate or thioether derivative ligands have been studied to be applied in the hydroxycarbonylation reaction.394 Aminothiolate complexes of palladium with PPh3 catalyze the conversion of styrene to 2-phenylpropionic acid in high yield and excellent regioselectivity.644 Under mild conditions and in the presence of a catalytic amount of an S, TV-chelated palladium or//zo-amino-arenethiolate complex, styrene reacts with CO and oxalic acid or water to selectively give 2-phenylpropanic aid in high yield.645... 

In the hydroxycarbonylation reaction, water performs the role of nucleophilic reagent, which cleaves acylpaUadium intermediate to yield carboxyhc acids. This type of reaction may beneht from all kinds of aqueous techniques. 

Water is a moderately reactive nucleophile and, as such, is involved in several well-known catalytic cycles, in which it (or its conjugate base, hydroxide ion) usually attacks either carbonyl ligands or other ligands in nucleophilic cleavage or reductive elimination steps. Such processes may be encountered, for example, in hydroxycarbonylation reactions ... 

The majority of hydroxycarbonylation reactions have used vinyl arenes as model substrates because the reactions of these alkenes can provide enantio-enriched profens in a single step. Abermarle are believed to use hydroxycarbonylation in their production of commercial naproxen, although they are believed to use a monodentate phosphine/ palladium catalyst to produce the compound as a racemic mixture that is subsequently resolved into the desired S enantiomer. This catalyst is also understood to enable the preceding Heck reaction (Scheme 14.26). ... 

Until very recently, the highest ee for a hydroxycarbonylation reaction was just 43%, in the reaction of p-methoxys-tyrene. This reaction made use of the sulfonated chiral diphosphine 28 (Figure 14.7) The reaction proceeded with... 

Within this section, the term aldol reaction includes additions of enols and enolates to carbonyl compounds. This section concentrates on aldol additions which deliver nonracemic, /i-hydroxycarbonyl compounds. The chiral information can be located ... 

Furthermore, both (E)- and (Z)-enolborinates add to aldehydes in a stereoconvergcnt manner, giving predominantly, syn-/J-hydroxycarbonyl compounds49. In contrast, only moderate induced diastereoselectivity is obtained in the reaction of achiral aldehydes with C2-symmetric enolborates, whereby the chiral information is located in the ligand at the metal atom50. The ee of the product /1-hydroxy ketones ranges from 4 to 72%. 

Reisen F, SM Aschman, R Atkinson, 1 Arey (2005) 1,4-hydroxycarbonyl products of the OH radical initiated reactions of Cj-Cg -alkanes in the presence of NO. Environ Sci Technol 39 4447-4453. 

Hydroxycarbonylation and alkoxycarbonylation of alkenes catalyzed by metal catalyst have been studied for the synthesis of acids, esters, and related derivatives. Palladium systems in particular have been popular and their use in hydroxycarbonylation and alkoxycarbonylation reactions has been reviewed.625,626 The catalysts were mainly designed for the carbonylation of alkenes in the presence of alcohols in order to prepare carboxylic esters, but they also work well for synthesizing carboxylic acids or anhydrides.137 627 They have also been used as catalysts in many other carbonyl-based processes that are of interest to industry. The hydroxycarbonylation of butadiene, the dicarboxylation of alkenes, the carbonylation of alkenes, the carbonylation of benzyl- and aryl-halide compounds, and oxidative carbonylations have been reviewed.6 8 The Pd-catalyzed hydroxycarbonylation of alkenes has attracted considerable interest in recent years as a way of obtaining carboxylic acids. In general, in acidic media, palladium salts in the presence of mono- or bidentate phosphines afford a mixture of linear and branched acids (see Scheme 9). 

A similar involvement of palladium hydride, palladium alkyl, and palladium acyl complexes as intermediates in the catalytic cycle of the Pd-catalyzed hydroxycarbonylation of alkenes was reported for the aqueous-phase analogs. The cationic hydride PdH(TPPTS)3]+ was formed via the reduction of the Pd11 complex with CO and H20 to [Pd(TPPTS)3] and subsequent protonation in the acidic medium. The reaction of the hydride complex with ethene produced two new compounds, [Pd(Et)(TPPTS)3]+ and Pd(Et)(solvent)(TPPTS)2]+. The sample containing the mixture of palladium alkyl complexes reacted readily with CO to afford trans-[Pd(C(Q)Et)(TPPTS)2]+.665... 

As with carboxylic acids obtained by palladium hydroxycarbonylation, their derivatives esters, amides, anhydrides and acyl halides are synthesized from alkenes, CO and HX (X = OR, NR2 etc.). The Pd-catalyzed methoxycarbonylation is one of the most studied reactions among this type of catalyzed carbonylations and has been reviewed and included in reports of homogeneous catalysis.625, 26 The methoxycarbonylation has been applied to many different substrates to obtain intermediates in organic syntheses as well as specific products. For instance, the reaction has been applied for methoxycarbonylation of alkynes666 Highly efficient homogeneous Pd cationic catalysts have been reported and the methoxycarbonylation of alkynes has been used to develop economically attractive and environmentally benign process for the production of methyl... 

The mechanisms of the hydroxycarbonylation and methoxycarbonylation reactions are closely related and both mechanisms can be discussed in parallel (see Section 9.3.6).631 This last reaction has been extensively studied. Two possibilities have been proposed. The first starts the cycle with a hydrido-metal complex.670 In this cycle, an alkene inserts into a Pd—H bond, and then migratory insertion of CO into an alkyl-metal bond produces an acyl-metal complex. Alcoholysis of the acyl-metal species reproduces the palladium hydride and yields the ester. In the second mechanism the crucial intermediate is a carbalkoxymetal complex. Here, the insertion of the alkene into a Pd—C bond of the carbalkoxymetal species is followed by alcoholysis to produce the ester and the alkoxymetal complex. The insertion of CO into the alkoxymetal species reproduces the carbalkoxymetal complex.630 Both proposed cycles have been depicted in Scheme 11. 

In aldol reactions, especially Mukaiyama aldol reactions, TiIV compounds are widely employed as efficient promoters. The reactions of aldehydes or ketones with reactive enolates, such as silyl enol ethers derived from ketones, proceed smoothly to afford /3-hydroxycarbonyl compounds in the presence of a stoichiometric amount of TiCl4 (Scheme 17).6, 66 Many examples have been reported in addition to silyl enol ethers derived from ketones, ketene silyl acetals derived from ester derivatives and vinyl ethers can also serve as enolate components.67-69... 

In this context we postulated that the shift reaction might proceed catalytically according to a hypothetical cycle such as Scheme I. There are four key steps in Scheme I a) nucleophilic attack of hydroxide or water on coordinated CO to give a hydroxycarbonyl complex, b) decarboxylation to give the metal hydride, c) reductive elimination of H2 from the hydride and d) coordination of new CO. In addition, there are several potentially crucial protonation/deprotonation equilibria involving metal hydrides or the hydroxycarbonyl. The mechanistic details have been worked out (but only incompletely) for a couple of the alkaline solution WGSR homogeneous catalysts. In these cases,... 

In this reaction, the nitronate is transformed into the 3 -hydroxycarbonyl fragment with complete retention of the stereo- and optical configuration. If the generality of this procedure will be demonstrated, it will play an important role in chemistry of cyclic nitronates. 

Aside from alkoxycarbonylations, hydroxycarbonylations in the presence of water to yield allenic carboxylic acids [15] (93, Y = OH) and aminocarbonylations in the presence of amines to give the analogous amides [139] (93, Y = NRR ) have also been carried out, respectively (Scheme 7.13). These products of structure 102 can also be obtained if using the propargylamines 101 with R1 = Ph or R3 Z H as starting materials (Scheme 7.15) [140]. Additionally, hydroxycarbonylations, also termed carboxyla-tions, are successful without palladium catalysis by reaction of propargyl halides and carbon monoxide in the presence of nickel(II) cyanide under phase-transfer conditions [141, 142]. 

Abstract The use of Co building block in presence of water or an alcohol to functionalise alkenes by hydroxycarbonylation or alkoxycarbonylation reactions is reviewed in this chapter. The hydroxyl groups can be present in the substrate itself so cascade reactions can occur. Palladium precursors are largely involved in these reactions and this analysis of the literature focuses on the mechanisms involving Pd(0), Pd(H)(X)L2, PdX2 and an oxidant like CuCl systems. Introduction of chiral L or L2 ligands or even the presence of chiral carbon atoms in the substrate lead to asymmetric carbonylation reactions. 

Several important industrial applications of the Heck reactions are known. The world s largest producer of Naproxen is Albemarle and they make Naproxen using two homogeneously catalysed steps, a Heck reaction and a palladium catalysed hydroxycarbonylation. The last step is carried out using palladium without chiral ligand and the enantiomers obtained are separated, see Figure 13.18. 

When aqueous NaOH is given as a base, isomerization of the product butenoic acids can be extensive depending on the nature and concentration of base. In dilute aqueous solutions alcohols do not react to form the respective esters, however, the reactions are strongly accelerated due to the increased solubility of the substrates in the catalyst-containing aqueous-alcoholic phase. For example, with 23-33 % (v/v) ethanol in water the [PdCl2(TPPTS)2]-catalyzed hydroxycarbonylation of allyl chloride proceeded with TOF-s of 1850-2400 h and with a vinylacetic/crotonic acid ratio of 21 [16]. Addition of [CuCb] increased the overall conversion rate (by a factor of 2 at [Cu]/[Pd] = 8) but at the same time the side reactions... 

In the carbonylation of allyl halides the highly toxic [Ni(CO)4] catalyst could be replaced by [Ni(CN)2], which yielded [Ni(CN)(CO)jr under the reaction conditions [17]. The cyanotricarbonylnickel(0) anion is a versatile catalyst of carbonylations under phase transfer conditions [18], however, hydroxycarbonylation of allyl chloride proceeds effectively without PT catalysts in a genuine biphasic system, as well. 

Hydroxycarbonylation of olefins (Scheme 5.11) in fully aqueous solution was studied using a rathenium-carbonyl catalyst with no phosphine ligands [35]. In a fine mechanistic study it was shown, that (the WGS) reaction of /ac-[Ru(C0)3(H20)3] and water provided /ac-[RuH(C0)2(H20)3]. At 70 °C and in the presence of CF3SO3H the latter compound reacted with ethene (10 bar) giving a a-alkylruthenium complex, solutions of which absorbed CO and yielded the corresponding acyl-derivative ... 

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