Fluorides, acyl reaction

These reactions are most important for the preparation of acyl fluorides. " Acyl chlorides and anhydrides can be converted to acyl fluorides by treatment with polyhydrogen fluoride-pyridine solution" or with liquid HF at — 10°C. Formyl fluoride, which is a stable compound, was prepared by the latter procedure from the mixed anhydride of formic and acetic acids. Acyl fluorides can also be obtained by reaction of acyl chlorides with KF in acetic acid or with DAST. Carboxylic esters and anhydrides can be converted to acyl halides other than fluorides by the inorganic acid halides mentioned in 10-77, as well as with PhsPXa (X = Cl or but this is seldom done. Halide exchange can be carried out in a... 

Owing to steric hindrance, the acylation reaction must be carried out using a large excess (4-10 Eq.) of the activated acid and for an extended period. In some cases, repeat acylation is recommended. Acylation has also been successfully carried out using Fmoc-amino acid fluorides (e.g., Fmoc-Phe-F4, 4Eq. in the presence of DIEA, 1.1 Eq. 18h >98% acylation efficiency). While acylation with unhindered activated carboxylic acids are achieved in >98%, acylation with hindered carboxylic acids generally resulted in ca. 80% efficiencies. 

The described procedure, first applied by Colson and Freden-hagen, is useful for the preparation of a wide variety of acyl fluorides. The yields are normally 80-90%. Some examples of acyl fluorides prepared are listed in Table I. Benzoyl fluoride can also be employed as a convenient source of acetyl fluoride by reaction with acetic acid. ... 

Fluorinated acyl fluorides are readily hydrolyzed by water or alkali to give acids. Per-fluoro(2,5-dimethyl-3,6-dioxanonanoyl) fluoride on reaction with water gives perfluoro(2,5-dimethyl-3,6-dioxanonanoic) acid (l).4,s... 

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. 

Fmoc-Ala-Oxa(5-Me)-OH was synthesized according to the procedure described above for Fmoc-Ala-Oxa-OH, except that the acylation reaction was performed with commercially available Fmoc-Ala-NCA, instead of the less accessible amino acid fluoride yield 50% mp 103-108 °C. 

Methods employing pre-activated species have also been utilized, but they need to be highly activated, such as the active esters OPfp,t l OObbt, and OTdo.bh The latter two are useful for color-based monitoring of acylation reactions. Also included in this class are Fmoc amino acid Al-carboxyanhydrides,t l acid chlorides,and acid fluorides. 1 1 The latter can also be formed in situ using TFFH.b ... 

Stereoselective reduction of a-alkyl-3-keto acid derivatives represents an attractive alternative to stereoselective aldol condensation. Complementary methods for pr uction of either diastereoisomer of a-alkyl-3-hydroxy amides from the corresponding a-alkyl-3-keto amides (53) have been developed. Zinc borohydride in ether at -78 C gave the syn isomer (54) with excellent selectivity ( 7 3) in high yield via a chelated transition state. A Felkin transition state with the amide in the perpendicular position accounted for reduction with potassium triethylborohydride in ether at 0 C to give the stereochemi-cally pure anti diastereoisomer (55). The combination of these methods with asymmetric acylation provided an effective solution to the asymmetric aldol problem (Scheme 6). In contrast, the reduction of a-methyl-3-keto esters with zinc borohydride was highly syn selective when the ketone was aromatic or a,3-unsaturated, but less reliable in aliphatic cases. Hydrosilylation also provided complete dia-stereocontrol (Scheme 7). The fluoride-mediated reaction was anti selective ( 8 2) while reduction in trifluoroacetic acid favored production of the syn isomer (>98 2). No loss of optical purity was observed under these mild conditions. 

Crafts process is to generate carbonium ions from the alkyl or acyl halides. It would be expected, then, that a number of other combinations of starting materials and reagents which lead to carbonium ions should be capable of effecting acylation or alkylation. Indeed we find that olefins (p. 35), alcohols (p. 36), ethers (p. 36), and esters (p. 37) can be used as starting materials for aromatic alkylation reactions in the presence of such catalysts as boron trifluoride, sulfuric acid, or anhydrous hydrogen fluoride.69 Acylations can be carried out with acids (p. 37),64 acid halides (p. 230), and acid anhydrides (p. 37). The Fries reaction65 (in which phenolic esters are converted to hydroxy aromatic ketones by means of aluminum chloride) appears to be an example of a typical acylation reaction in which the ester itself acts as the source of an acyl carbonium ion ... 

On the synthetic side, single diastereomers of P-keto phosphine oxides have been generated from intermolecular acylation of phosphine oxides using either chiral esters or chiral phosphine oxides. In most cases, reduction of the ketone products was not affected by the presence of extra chiral centres. Addition of metallated phosphine oxides to proline-derived ketoaminals provides a new route to optically active P-hydroxy phosphine oxides. The P-hydroxy phosphine oxide 97 has been prepared by the caesium fluoride mediated reaction of silyl-substituted phosphine oxide 98 and benzaldehyde." The synthesis of two (E)-(6-hydroxy-2-hexen-l-yl)diphenylphosphine oxides (99) has been reported. The Horner-Wittig reactions of these compounds with various carbonyl compounds... 

A considerable amount of research has been concerned with the nature of the electrophiles that are involved in Friedel-Crafts acylation reactions. We will summarize the main points. Acyl halides and carboxylic acid anhydrides have been known, for many years, to form stable complexes with a variety of acid catalysts. A well-defined product is formed between acetyl fluoride and boron trifluoride at low temperatures. Analytical and conductivity data characterized the material as acetylium tetrafluoroborate, and this was further confirmed by IR measurements. In the system acetyl chloride-aluminum chloride the acetylium ion can be differentiated from the donor-acceptor complex involving the carbonyl group by means of their IR carbonyl stetching frequencies. A number of other acyl fluorides have been shown to form well-defined acylium salts by interaction with a number of metal fluorides. Acylium salts can also be prepared from acyl chlorides by means of metathetical reactions involving anhydrous salts such as silver hexafluoroantimonate. As well as characterization by means of IR spectroscopy, acylium salts have been studied in non-nucleophilic solvents by NMR spectroscopy. The NMR data for the ben-... 

The use of an acyl chloride in the presence of aluminum chloride constitutes the most frequently used type of Friedel-Crafts ketone synthesis. Many examples from the earlier literature are reported in the reviews mentioned at the beginning of this chapter.The reactivity of acyl halides in reactions of acyl halides with aluminum halides decreases in the order I > Br > Cl > F, but a different order was report for reactions catalyzed by boron halides. In the latter case the order was acyl fluoride > acyl bromide > acyl chloride. We shall concentrate our attention on recently reported examples. 

Replacement of three fluorine atoms in cyanuric fluoride 55 was applied for construction biologically active molecules of deazapurine type [95]. Cyanuric fluoride mediated reaction of chiral Na-tritylamino acids leads to the corresponding acyl fluorides 155 which are powerful acylating agents for peptide synthesis... 

Acylation of both aromatic and aliphatic compounds can be carried out with relative ease using acyl halides, acid anhydrides, ketenes, nitriles, amides, acids and esters in the presence of Friedel-Craft catalysts to give ketones. Similar substitution reactions with formic acid derivatives are therefore expected to yield the appropriate aldehydes. However, since the anhydride and acyl halides of formic acid, with the exception of formyl fluoride, are either not known or are not sufficiently stable to be used in Friedel-Crafts type acylation reactions, this objective cannot be fully realized. Table 1.1 compares the main ketone syntheses (based on acylating reagents) with the corresponding aldehyde syntheses (based on formylating reagents). 

My early work with acyl fluorides also involved formyl fluoride, ITCOF, the only stable acyl halide of formic acid, which was first made in 1933 by Nyesmeyanov, who did not, however, pursue its chemistry. 1 developed its use as a formylating agent and also explored formyla-tion reactions with CO and HF, catalyzed by BF3. 

Concerning my research during my Dow years, as I discuss iu Chapter 4, my search for cationic carbon intermediates started back in Hungary, while 1 was studying Friedel-Crafts-type reactions with acyl and subsequently alkyl fluorides catalyzed by boron trifluoride. In the course of these studies I observed (and, in some cases, isolated) intermediate complexes of either donor-acceptor or ionic nature. 

The reaction of OF2 and various unsaturated fluorocarbons has been examined (35,36) and it is claimed that OF2 can be used to chain-extend fluoropolyenes, convert functional perfluorovinyl groups to acyl fluorides and/or epoxide groups, and act as a monomer for an addition-type copolymerization with diolefins. 

HFPO reacts with a large number of acyl fluorides in a general reaction to give 2-alkoxytettafluotoptopionyl fluorides which in turn may be converted to trifluorovinyl ethers (eq. 14). 

Preparation. The preparation of tetrafluoroethylene has been described previously. Perfluorovinyl ethers (4—7) are prepared by the following steps. Hexafluoropropylene [116-15-4] (HEP) is oxidized to an epoxide HEPO [428-59-1] (5) which, on reaction with perfluorinated acyl fluorides, gives an alkoxyacyl fluoride. 

Sulfonylation. Under Friedel-Crafts reaction conditions, sulfonyl haUdes and sulfonic acid anhydrides sulfonylate aromatics (139), a reaction that can be considered the analogue of the related acylation with acyl haUdes and anhydrides. The products are sulfones. Sulfonyl chlorides are the most frequently used reagents, although the bromides and fluorides also react ... 

Perchlorylation. The stabiUty of perchloryl fluoride [7616-94-6] FCIO, makes possible perchlorylation of aromatics, a reaction closely related to the Friedel-Crafts acylation (159) ... 

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