Tandem reactions condensation

Fluoroalkjiations are frequentiy performed indirectly using tandem reactions. Arenes react with sodium borohydride in trifluoroacetic acid to afford otherwise difficult to obtain l,l,l-trifluoro-2,2-diarylethanes. Presumably sodium borohydride reacts initially with the trifluoroacetic acid to produce the trifluoroacetaldehyde or its equivalent, which rapidly undergoes Friedel-Crafts-type condensation to give an intermediate carbinol. The carbinol further alkylates ben2ene under the reaction conditions giving the observed product. The reaction with stericaHy crowded arenes such as mesitylene and durene... 

A similar method has been described by Badia and co-workers who used chiral amides derived from pseudoephe-drine.139 Moreover, a zirconium-mediated Claisen-aldol tandem reaction of an a,cr-dialkylated ester with several aldehydes has been reported (Scheme 39).140 After the initial Claisen condensation, zirconium enolate intermediate 92 reacts with various types of aldehydes through aldol-type reaction and subsequent lactonization, providing the corresponding pyran-2,4-diones. 

Products of a similar type have been obtained in good yields in a tandem reaction occurring via the condensation of aldehydes with primary or secondary amines and an iridium-mediated double addition of ethynyltrimethyl silane to aldamine formed in the condensation step [84]. 

Cyclic alkyl nitronates may be used in tandem [4+2]/[3+2] cycloadditions of nitroalkanes, and this reaction has been extensively studied by Denmark et al. (64,333-335). In recent work, they developed the silicon-tethered heterodiene-alkene 219 (Scheme 12.63). Steric hindrance and the fact that both the nitroalkene and the a,p-unsaturated ester in 219 are electron deficient renders the possibility of self-condensation. Instead, 219 reacts with the electron-rich chiral vinyl ether 220 in the presence of the catalyst 224 to form the intermediate chiral nitronate 221. The tandem reaction proceeds from 221 with an intramolecular 1,3-dipolar cycloaddition to form 222 with 93% de. Further synthetic steps led to the formation of ( )-detoxinine 223 (333). A similar type of tandem reaction has also been applied by Chattopadhyaya and co-workers (336), using 2, 3 -dideoxy-3 -nitro-2, 3 -didehydrothymidine as the starting material (336). 

Hydroaminomethylation is a promising reaction to functionalize unsaturated compounds with an amino group [13, 48, 49], The tandem reaction was discovered by Reppe in 1949 and has been further developed in recent years by Eilbracht and Beller. Hydroaminomethylation consists of three consecutive reactions which are carried out in the same reaction vessel [48], The first reaction is hydroformylation which is followed by the condensation with an amine. Hydrogenation of the generated enamine/imine to the amine is the last step. The conditions for hydroaminomethylation are related to the hydroformylation reaction but are not similar due to the two other reactions. The reaction is called an auto-tandem reaction because two of the three reactions need the same catalyst [9] (Scheme 16). 

The condensation of an imine with a Reformatsky-type reagent and tandem reactions can result in asymmetric induction.3-207-484 87 The reaction of a ketene with an electron-rich alkene results in a [2+2] cycloaddition, although other systems can also be used,488 90 The stereochemistry of the adduct is cis, and functionalized ketenes can also be used. The ketene can be generated in situ (Scheme 26.21).491... 

Fig. 12.13. An acid-catalyzed Michael addition. Unlike base-catalyzed Michael additions, which are also known (Section 13.6.1), a Michael addition occurring under acidic conditions cannot be followed by the formation of a six-mem-bered ring through aldol addition, aldol condensation or— starting from other reactants than the ones shown here— acylation. Under basic conditions, however, the corresponding tandem reactions are quite common (see Section 13.6.2).

Fig. 13.71. Tandem reaction I, consisting of a Michael addition and an aldol condensation Robinson annulation reaction for the synthesis of six-membered rings that are condensed to an existing ring.

Fig. 13.72. Tandem reaction II, consisting of Michael addition and aldol condensation.

Novel carbon frameworks have been developed from polycyclic hydrocarbons. Thus, Kuck and coworkers143 have recently reported an unexpected tandem reaction, which formally consists of a condensation/cyclodehydrogenation sequence starting from triptidan-9-one 233 leading to the fn/wso-tetracyclic propellane 234 (Scheme 72). The reaction of the tribenzo[3.3.3]propellane ketone 233 with benzylhthium/TMEDA afforded an efficient one-pot peri annulation of a dihydronaphthalene (Scheme 72). The key step of this unexpected tandem reaction was determined to be a nucleophilic cychzation followed by hydride elimination. 

We have been particularly enamored with the development of experiments involving carbon-carbon bond formation, especially as part of tandem reactions occurring in a single container (see the Diels-Alder reaction. Figure 1). One such reaction is the synthesis of simple esters of coumarin-3-carboxylic acids via a Knoevenagel condensation between malonic esters and various a-hydroxybenzaldehydes, followed by intramolecular nucleophilic acyl substitution. This conversion, catalyzed by piperidine, has been carried out under a variety of conditions, for example, at room temperature without solvent... 

Dommo-type reactions involve careful design of a multistep reaction in a one-pot sequence in which the first step creates the functionality to trigger the second reaction and so on, making this approach economical and environmentally friendly. A classical example of a tandem reaction is the Robinson annulation (a Michael reaction followed by aldol condensation and dehydration). 

During the totai synthesis of (+)-ieporin A, a tandem Knoevenagel condensation/inverse electron demand intramolecular hetero-Diels-Alder reaction was empioyed by B.B. Snider et al. to construct the key tricyclic... 

The synthesis of a tricyclic amine by tandem amide condensation and Mannich reaction Alternatives to amide condensations use of sulfur... 

Furans are also useful 4ji components for tandem Ugi condensation/intra-molecular Diels-Alder cascade reactions. For example, stirring a methanolic mixture of compounds 127-129 and benzylamine at rt provided the Ugi condensation product 130 that underwent a subsequent intramolecular Diels-Alder cycloaddition to furnish 131 in 70-90% yield (Scheme 23) (99TL1851). This methodology also allowed for a solid phase synthesis by using an ArgoGel-Rink resin as the amine component, providing cycloadducts 131 (after cleavage from the resin) in ca. 90-95% yields. 

The cyclization reactions described in this chapter and, occasionally, even the acyclic condensation reactions, can often be prefaced by a different type of process such as a Michael reaction. We shall term such a sequence a tandem reaction and a number of these have already been described. Others will be collected here to illustrate the types of processes that have been observed. The cycloenones (198), when treated with a nucleophile (199) under basic conditions, react in a Michael fashion to give the intermediates (200), which then undergo the Dieckmann reaction to give the bicyclic dione (201). Similarly, methyl cinnamate (202) reacts with the nucleophile (203) in the same tandem sequence to give the cyclopentanone (204) as a diastereomeric mixture (Scheme 89). ... 

Tandem reactions initiated by conjugate addition. A three-component condensation ... 

Some condensed tetrahydro-l,2,4-triazines, derived from the Af,f-A M tandem reactions, can he oxidized into the corresponding aromatic systems, and these oxidation products are regarded as products of the tandem reactions . For instance, aromatization of 3a,4,7,7a-tetrahydrothiazolo[4,5-< ]-l,2,4-triazines with potassium permanganate in acetone proceeds smoothly at room temperature, and the oxidation process is accompanied by elimination of the W-acetyl group (Scheme 78). 

A collection of results obtained with the most effective catalyst systems is summarized in Figure 6.4. Noteworthy examples include the oxidation of a-aminoalcohols with no loss in enantiopurity and the oxidation of cis-allyhc alcohols without Z E isomerization. Stahl also demonstrated the chemoselective oxidation of primary diols to form lactones [22]. While ABNO provides efficient oxidation of symmetric diols, TEMPO discriminates between subtle steric differences in nonsymmetrical substituted diols. Cu/nitroxyl catalysts have also been applied to a variety of tandem reactions [23], perhaps the most noteworthy of which is the conversion of primary alcohols to nitriles via in situ condensation of ammonia with the aldehyde and subsequent dehydrogenation of the primary imine to the nitrile (Figure 6.5) [24]. 

The Overman pyrrolidine synthesis is a tandem reaction, or cascade, used to generate acylpyrrolidine derivatives. This process begins with condensation of an allylic alcohol/ether-containing secondary homoallylic amine with an aldehyde, followed by an aza-Cope rearrangement and subsequent Mannich reaction. Commonly, this reaction is run in refluxing benzene with an acidic additive, such as c/-10-camphorsulfonic acid (CSA). 

A tandem reaction using Ti +-mont and HT that comprises deprotection and aldol condensation from malononitrile and benzaldehyde dimethyl acetal as starting materials is outlined in Table 2. The product is obtained only when both Ti + mont and HT are present and it is synthesized by Ti +-mont-catalyzed deacetalization of benzaldehyde dimethyl acetal, followed by the aldol reaction of malononitrile with benzaldehyde. When either Ti +-mont or HT was replaced by a homogeneous reagent such as p-toluenesulfonic acid or piperidine, neither the deacetalization nor the aldol reactions occurred to any great extent. 

---