Orthoesters acetate

Hollis, T. K., Robinson, N. p., Whelan, J., Bosnich, B. Homogeneous catalysis. Use of the TiCp2(CF3S03)2] catalyst for the Sakurai reaction of allylic silanes with orthoesters, acetals, ketals and carbonyl compounds. Tetrahedron Lett. 1993, 34,4309-4312. 

The complex [Cp 2Ti(F[20)2](CF3S03)2 is an efficient catalyst for the Diels-Alder reaction even when water is present, while Cp2Ti(CF3S03)2 is an efficient catalyst for the Diels-Alder and Mukaiyama reactions1560 as well as for a variety of reactions between allylic silanes and orthoesters, acetals, ketals, aldehydes, and ketones for the Sakurai reaction.1561... 

An jV-amtdino-aniinopyrazole may be cyclized by reaction with an orthoester, acetic formic anhydride, formic acid, phenyl isocyanate dichloride or dimethyl oxalate according to the substituent that is required at position 2 of the product. 

The synthesis of block copolymers by sequential polymerization requires a living polymer prepared from the less nucleophilic monomer (first block) and the addition of a more nucleophilic monomer to the active species located on this first block. The general order of nucleophilicities of heterocyclic monomers is as follows Siloxanes orthoesters < acetals < ethers < sulfides < oxazolines < amines. Depending on substitution and ring strain some changes may occur in these positions. 

The most commonly used protected derivatives of aldehydes and ketones are 1,3-dioxolanes and 1,3-oxathiolanes. They are obtained from the carbonyl compounds and 1,2-ethanediol or 2-mercaptoethanol, respectively, in aprotic solvents and in the presence of catalysts, e.g. BF, (L.F. Fieser, 1954 G.E. Wilson, Jr., 1968), and water scavengers, e.g. orthoesters (P. Doyle. 1965). Acid-catalyzed exchange dioxolanation with dioxolanes of low boiling ketones, e.g. acetone, which are distilled during the reaction, can also be applied (H. J. Dauben, Jr., 1954). Selective monoketalization of diketones is often used with good success (C. Mercier, 1973). Even from diketones with two keto groups of very similar reactivity monoketals may be obtained by repeated acid-catalyzed equilibration (W.S. Johnson, 1962 A.G. Hortmann, 1969). Most aldehydes are easily converted into acetals. The ketalization of ketones is more difficult for sterical reasons and often requires long reaction times at elevated temperatures. a, -Unsaturated ketones react more slowly than saturated ketones. 2-Mercaptoethanol is more reactive than 1,2-ethanediol (J. Romo, 1951 C. Djerassi, 1952 G.E. Wilson, Jr., 1968). 

Orthoesters. The value of cycHc orthoesters as intermediates for selective acylation of carbohydrates has been demonstrated (73). Treatment of sucrose with trimethylorthoacetate and DMF in the presence of toluene-/)-sulfonic acid followed by acid hydrolysis gave the 6-0-acetylsucrose as the major and the 4-0-acetylsucrose [63648-80-6] as the minor component. The latter compound underwent acetyl migration from C-4 to C-6 when treated with an organic base, such as / fZ-butylamine, in DMF to give sucrose 6-acetate in >90% yield (74). When the kinetic reagent 2,2-dimethoxyethene was used,... 

Acid moieties include formic acid itself, formates and orthoesters, formamide, DMF dimethyl acetal and ethyl diethoxyacetate, acids, acid chlorides and anhydrides, the last including a rare [3,4-oxalate esters, 2-acyl or 2-ethoxycar-bonyl derivatives e.g. 180) are formed. 

Selective protection of 1,2- and m-l,3-diols can be achieved by formation of acetonides, acetals or orthoesters. Further selectivity is possible in special cases (e.g., acetonide formation). With 17a,20,21-triols, the 20,21-acetonide is obtained exclusively. 16a,17a,21-Trihydroxy-20-lcetopregnanes (20) react selectively with acetone to give 16,17-acetonides (21). 

Three possible mechanisms for the Serini reaction were originally suggested. These proceed via (a) a A -enol acetate, (b) a A -epoxide, or (c) a cyclic orthoester ... 

Ketene di(2-melhoxyethyl) acetal has been obtained by the present method with the use of diethylene glycol dimethyl ether as solvent.3 Other methods for the preparation of ketene acetals include the dehydrohalogenation of a halo acetal with potassium t-butoxide 4 and the reaction of an a-bromo orthoester with metallic sodium.5... 

Yokoyama, Y. and Hall, H. K. Ring-Opening Polymerization of Atom-Bridged and Bond-Bridged Bicyclic Ethers, Acetals and Orthoesters. Vol. 42, pp. 107—138. 

In a remarkable reaction according to Eq. 18 palladium(II) acetate reacts in methanol with diphenylacetylene to form dinuclear [Pd(T 5-C5Ph5)]2(p-PhC = CPh) (67) [79], The reaction mechanism was studied in some detail and part of the alkyne molecule was found as benzoic acid orthoester PhC(OMe)3. When... 

It is for this reason that orthoesters and acetals are (comparatively) stable in the absence of an acid. Alternatively, one can have an uncatalyzed mechanism involving preliminary tautomerization to a zwitterion, but the thermodynamic cost of this imposes a considerable barrier to reaction. 

Dimethyl or diethyl acetals can be prepared by acid-catalyzed exchange with an acetal such as 2,2-dimethoxypropane or an orthoester.247... 

There are several synthetically important adaptations of the reaction. It can be applied to orthoesters (Section 6.4.2.2) or silyl ketene acetals (Section 6.4.2.3), in which case the products are y,8-unsaturated acids or esters. An analogous reaction using amide... 

A. Claisen Rerrangements of Ketene Aminats and Imidates. A reaction that is related to the orthoester Claisen rearrangement utilizes an amide acetal, such as dimethylacetamide dimethyl acetal, in the exchange reaction with allylic alcohols.257 The products are y, 8-unsaturated amides. The stereochemistry of the reaction is analogous to the other variants of the Claisen rearrangement.258... 

The reaction between the cyclic orthoester 8 and diethyl chlorophosphite 9 leads via transesterification to the two acetals 4 and 5, which cannot be separated by distillation. 

The fact that reaction can be made to go with (25), but not with the simple R OH, is due to the ASe (c/ p. 36) value for the former being more favourable than that for the latter, which involves a decrease in the number of molecules on going from starting material to product. Both aldehydes and ketones that are otherwise difficult to convert into acetals may often be transformed by use of orthoesters, e.g. HC(OEt)3, triethoxymethane ( ethyl orthoformate ), with NH Cl as catalyst. 

For the Cu(OTf)2-promoted reaction between ethyl diazoacetate and cinnam-aldehyde dimethyl acetal, products 143-145 account for only 35% the total yield. C/C and C/H insertion products 151 and 152 are obtained additionally in 49 and 14% yield, respectively154). It was assumed that the copper compound acts through Lewis-acid catalysis here, just as it is believed to do when orthoesters are used as substrates 160). According to this, catalyst-induced formation of a methoxy-... 

Reduction of Acetals, Ketals, Hemiacetals, Hemiketals, and Orthoesters... 

Alkyl and aryl thiohydrazide derivatives react with orthoesters and trihalomethyls to afford 1,3,4-thiadiazoles. The reactions proceed via a thiosemicarbazone intermediate which cyclizes to eliminate either alcohol or hydrogen chloride. Treatment of the iV-thiohydrazide pyrazole 143 with triethyl orthoformate in acetic acid at reflux gave the 5-acetamido-l,3,4-thiadiazol-2-ylpyrazole 144 (Equation 51), and in the absence of acetic acid the 5-amino-l,3,4-thiadiazol-2-ylpyrazole 145 in 76% yield <2000JCM544>. 

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