Acyl cation equivalent

Although many carbonyl derivatives act as acyl cation equivalents, R(C=0)" in synthetic chemistry, the inherent polarity of the carbonyl group makes it much more difficult to find compounds that will act as equivalents of acyl anions, R(C=0) . Since the 1960s, major progress has been made in this area, and there are now a wide variety of compound types that can react in this way. As in so many areas of organic chemistry, heterocyclic compounds take pride of place and form the basis of many of the most useful methods. In recent years there has been particular interest in developing chiral acyl anion equivalents that will show high... 

Recently, acylsilanes have been utilized as useful intermediates in organic synthesis [57], For example, treatment of acylsilanes with the fluoride ion generates the corresponding acyl anions which react with electrophiles. On the other hand, by using the electrochemical method, acylsilanes serve as acyl cation equivalents because nucleophiles are introduced at the carbonyl carbon. Chemical oxidation of acylsilanes with hydrogen peroxide which affords the corresponding carboxylic acids has been reported [58], However, the anodic oxidation provides a versatile method for the introduction of various nucleophiles... 

Silyl enolates react with acyl cation equivalents to give the C- and/or O-acylated products (Equation (90)).333 Fluoride-catalyzed reaction using acyl fluorides is valuable for O-acylation of silyl enolates derived from aldehydes and ketones.334 CuCl also promotes the 0-acylation with acyl chlorides.335 The CuCl-promoted reaction of ester silyl enolates results in exclusive (7-acylation. Combined use of BiCfl and Znl2 (or Nal) effects catalytic (7-acylation of ketone silyl enolates with acyl chlorides. 

The possibility of using IV-alkylnitrilium salts as acyl cation equivalents has been investigated by allowing nitriles to react with methyl triflate and a nucleophilic aromatic derivative such as 1,3-dimeth-oxybenzene. A/-Methylnitrilium salts have also been made by warming nitriles with trimethyloxonium fluoroborate. Subsequent reactions with pyrroles and indoles gave the expected iminium salts in excellent yields, as shown in equation (61). ... 

For simplicity, the structures in Figure 6.32 do not show the titanium complexes in full, as these would make the crucial changes in the carbon skeleton more difficult to see. Also for the same reason, the cedrane skeleton is drawn in a different way from that used in previous figures. (Any reader who does not see that the drawings of (6.91) in Figures 6.31 and 6.32 represent the same molecule, should build a molecular model to convince him/herself that this is the case.) The first stage involves the addition of an acyl cation equivalent to cedrene to give the... 

One-pot Procedure for a-Methylthio j8-Keto and Enamine Phosphonates. a-Methylthio /3-keto and enamine phosphonates are prepared from diethyl methylphosphonate hy a one-pot procedure using a nitrile as an acyl cation equivalent, followed by treatment with MeSS02Me as an electrophile (eq 5). ... 

Friedel-Crafts acylation involves electrophilic attack by acyl cation (CHsCO ) on the ring, and the ring s electronic character should indicate its susceptibility to attack. Compare electrostatic potential maps of ferrocene and acetylferrocene. Which molecule contains the most electron-rich ring Which acylation reaction should be faster Does an acetyl substituent enhance or diminish ring reactivity What should be the major product when ferrocene is combined with one equivalent of acetic anhydride ... 

Volume 75 concludes with six procedures for the preparation of valuable building blocks. The first, 6,7-DIHYDROCYCLOPENTA-l,3-DIOXIN-5(4H)-ONE, serves as an effective /3-keto vinyl cation equivalent when subjected to reductive and alkylative 1,3-carbonyl transpositions. 3-CYCLOPENTENE-l-CARBOXYLIC ACID, the second procedure in this series, is prepared via the reaction of dimethyl malonate and cis-l,4-dichloro-2-butene, followed by hydrolysis and decarboxylation. The use of tetrahaloarenes as diaryne equivalents for the potential construction of molecular belts, collars, and strips is demonstrated with the preparation of anti- and syn-l,4,5,8-TETRAHYDROANTHRACENE 1,4 5,8-DIEPOXIDES. Also of potential interest to the organic materials community is 8,8-DICYANOHEPTAFULVENE, prepared by the condensation of cycloheptatrienylium tetrafluoroborate with bromomalononitrile. The preparation of 2-PHENYL-l-PYRROLINE, an important heterocycle for the synthesis of a variety of alkaloids and pyrroloisoquinoline antidepressants, illustrates the utility of the inexpensive N-vinylpyrrolidin-2-one as an effective 3-aminopropyl carbanion equivalent. The final preparation in Volume 75, cis-4a(S), 8a(R)-PERHYDRO-6(2H)-ISOQUINOLINONES, il lustrates the conversion of quinine via oxidative degradation to meroquinene esters that are subsequently cyclized to N-acylated cis-perhydroisoquinolones and as such represent attractive building blocks now readily available in the pool of chiral substrates. 

The ring closure of 1,5-keto-acids and their derivatives is a widely used strategy for the synthesis of 2A-pyran-2-ones <1984CHEC, 1996CHEC-II>. The 1,5-keto acid derivatives are typically formed in situ with concomitant ring closure to form 2//-pyran-2-ones. There are three main approaches to access the prerequisite 1,5-keto acid derivatives, namely (i) reaction of an ester enolate with a 2-acyl vinyl cation equivalent, (ii) the reaction of a ketone enolate... 

At oxidation level 3, acid chlorides occupy a key position, since they may serve as a nearly universal substrate for an isohypsic transformation into any kind of carboxylic acid derivative. Acid halides are electrophiles that are synthetically equivalent to acyl cations (RCO ). In this capacity they are used for the synthesis of such important compounds as esters, amides (and hence, nitriles), thioesters, etc. (see Scheme 2.57), and for the formation of C-C bonds in the Friedel-Crafts reaction (see above). Acid chlorides may readily lose HCl upon treatment with triethylamine. This isohypsic conversion leads to ketenes, important reagents widely employed in [2 + 2] cycloadditions, as we will see later. 

Additional flexibility in the control over the selectivity of heterolytic reactions is provided in the diversity of electrophilic reagents that formally correspond to the same electrophile. For example, reagents such as RCO BF, RCOO-SO2CF3, RCOCl, and (RC0)20 are employed in synthesis as equivalents of the acyl cation RCO. However, a tremendous difference in the reactivity of these acylating species enables one to choose a reagent specifically adjusted to the peculiarity of the nucleophilic counterpart. In a similar way, such unlike compounds as trialkyloxonium salts, R30 BF7, alkyl halides, tosylates, or acetates can serve as transfer agents of the same alkyl cation, R, but they differ drastically in their activity and pattern of selectivity toward various nucleophiles. 

When the aldol strategy is ideal When the aldol strategy is not ideal Symmetry as a guide Wittig-style aldol methods Strategy 4b Acylation of a Vinyl Anion Vinyl metal reagents The aliphatic Friedel- Crafts reaction Unsaturated Acyl Cations and Anions Acyl anion equivalents (d1 reagents)... 

The acyl cation 2a or acylium ion 2b is a familiar intermediate in the Friedel-Crafts reaction. It is easy to make (acid chloride + Lewis acid 1) and it can be observed by NMR as it expresses the natural reactivity pattern of the acyl group. The acyl anion by contrast has umpolung or reverse polarity.1 One might imagine making it from an aldehyde by deprotonation 3 and that it would be trigonal 4a or possibly an oxy-carbene 4b. Such species are (probably) unknown and their rarity as well as their potential in synthesis has led to many synthetic equivalents for this elusive synthon. The acyl anion, the d1 synthon, is the parent of all synthons with umpolung2 and should perhaps have been treated before the homoenolates dealt with in the previous chapter. 

Another way that allenes can be used to provide an acyl anion equivalent is by the Lewis acid catalysed addition of propargyl silanes to electrophiles 109 followed by oxidative cleavage of the allene. The intermediate vinyl cation 110 is stabilised by the silicon (3-effect (chapter 12) and loss of the Me3Si group gives the allene 111. Oxidative cleavage of the sensitive allene reveals that it has acted as a reagent for the formyl anion. 

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