Phosphorus synthesis

The reaction of 24Mg to give 23Na takes place in around 50% yield, with the following reaction only in 5% yield. A large part of the 31P is destroyed by the reaction 31P (p, a) —> 28Si. More details of phosphorus synthesis and that of its compounds can be found in Maci et al. (1997) and Macid (2005). 

Labeling at internucleotide phosphorus Synthesis of deoxynucleo-tide 3 -phosphorothioamidites, incorporation into DNA using commercially available oligonucleotide synthesizers, and subsequent alkylation have been reviewed by Caruthers et al ... 

Krespan noted that in all the phosphorus synthesis experiments, iodine satisfies the third valence of phosphorous. No third phosphorus-carbon bonds are formed and the six member phosphorus containing rings take on a puckered, hexane-like conformer. Krespan also indicated that the six member phosphorus containing rings are unreactive to water, but that the octafluorophospholanes is readily hydrolyzed to its phosphorous acid. 

It must be emphasized that NMR is first and foremost a tool for structural analysis and, in addition to the petroleum analyses described above, the technique (phosphorus NMR and sometimes nitrogen NMR) is abundantly used in all petrochemical synthesis operations. 

The Bart reaction has now been extended to the synthesis of arylphosphonic acids by the interaction of the diazonium fluoroborate and phosphorus trichloride (Doak and Freedman, 1951). 

Olefin synthesis starts usually from carbonyl compounds and carbanions with relatively electropositive, redox-active substituents mostly containing phosphorus, sulfur, or silicon. The carbanions add to the carbonyl group and the oxy anion attacks the oxidizable atom Y in-tramolecularly. The oxide Y—O" is then eliminated and a new C—C bond is formed. Such reactions take place because the formation of a Y—0 bond is thermodynamically favored and because Y is able to expand its coordination sphere and to raise its oxidation number. 

The synthesis of vitamin Dj from a sensitive dienone was another etu-ly success of phosphorus ylide synthesis (H.H. Inhoffen, 1958 A). This Wittig reaction could be carried out without any isomerization of the diene. An excess of the ylide was needed presumably because the alkoxides formed from the hydroxy group in the educt removed some of the ylide. 

Low-valent nitrogen and phosphorus compounds are used to remove hetero atoms from organic compounds. Important examples are the Wolff-Kishner type reduction of ketones to hydrocarbons (R.L. Augustine, 1968 D. Todd, 1948 R.O. Hutchins, 1973B) and Barton s olefin synthesis (p. 35) both using hydrazine derivatives. 

Phosphorus trichloride in benzene is reported to effect mild and fast cydization. It has been used for synthesis of 2,3-dialkyl- and 2,3-diaryl-indoles[8-ll]. Table 7.2 presents some typical Fischer indolization reactions using both the traditional and more recently developed reaction conditions. 

The reaction of phosphorus pentasulfide with a-acylamino carbonyl compounds of type Ilia also yields thiazoles. Even more commonly, a mercaptoketone is condensed with a nitrile of type IVa or a-mercaptoacids or their esters with Schiff bases. This ring closure is limited to the thiazolidines. In the Va ring-closure type, /3-mercaptoalkylamines serve as the principal starting materials, and ethylformate is the reactant that supplies the carbon at the 2-position of the ring. These syntheses constitute the most important route for the preparation of many thiazolidines and 2-thiazohnes. In the Vb t3fpe of synthesis, one of the reactant supplies only the carbon at the 5-position of the resultant thiazole. Then in these latter years new modern synthetic methods of thiazole ring have been developed (see Section 7 also Refs. 515, 758, 807, 812, 822). 

Thiazolium salts with alkyl (103, 722), arylalkyl (116), aryl (305), or heteroaryl (96) substituents on the nitrogen have been also prepared by this procedure. As in the thiazole series, N-substituted thioamides can be formed directly in the reaction mixture from phosphorus pentasulfide and N-substituted amides (127). These methods are important in the synthesis of thiamine 102 (vitamin Bj) (Scheme 45). 

Hydroxythiazoles give 2-chIorothiazole derivatives almost quantitatively upon treatment with phosphorus oxychloride (221, 229, 428). This constitutes a convenient synthesis method for these compounds when the conversion of 2-aminothiazoles to 2-chlorothiazole derivatives fails. Esters of thiocarbamic acid or thiourethanes also react with a-halocarbonyl compounds to give the corresponding 2-alkoxythiazoles (50, 68, 209, 272). 

The Gabriel s synthesis is also applicable when a polysubstituted thiazole is required (381, 550). Thus 2,4,5-trisubstituted thiazoles are obtained by treating the corresponding a-acylaminoketones with phosphorus pentasulfide for a few minutes at 100°C (550) or at higher temperature for heavier substituents (381). (Table 11-31). 

TABLE 11-31. THIAZOLES FROM -ACYLAMINOKETONES AND PHOSPHORUS PENTASULFIDE (Gabriel s synthesis)... 

Alkylethers (269), R2 = alkyl, are obtained by the action of phosphorus pentasulfide on alkyl esters of a-acylamino acids (64, 334, 711) by means of the GabriePs synthesis (Section II.4), while aryl ethers (269), = aryl,... 

Hydroxyalkylthiazoles are also obtained by cyclization or from alkoxyalkyl-thiazoles by hydrolysis (36, 44, 45, 52, 55-57) and by lithium aluminium hydride reduction of the esters of thiazolecarboxylic acids (58-60) or of the thiazoleacetic adds. The Cannizzaro reaction of 4-thiazolealdehyde gives 4-(hydroxymethyl)-thiazole (53). The main reactions of hydroxyalkyl thiazoles are the synthesis of halogenated derivatives by the action of hydrobroraic acid (55, 61-63), thionyl chloride (44, 45, 63-66), phosphoryl chloride (52, 62, 67), phosphorus penta-chloride (58), tribromide (38, 68), esterification (58, 68-71), and elimination that leads to the alkenylthiazoles (49, 72). 

Both reactants m the Williamson ether synthesis usually originate m alcohol pre cursors Sodium and potassium alkoxides are prepared by reaction of an alcohol with the appropriate metal and alkyl halides are most commonly made from alcohols by reaction with a hydrogen halide (Section 4 7) thionyl chloride (Section 4 13) or phosphorus tri bromide (Section 4 13) Alternatively alkyl p toluenesulfonates may be used m place of alkyl halides alkyl p toluenesulfonates are also prepared from alcohols as their imme diate precursors (Section 8 14)... 

Wittig reaction (Section 17 12) Method for the synthesis of alkenes by the reaction of an aldehyde or a ketone with a phosphorus yhde... 

J. D. Morrison and J. W. ScoXt, Asymmetric Synthesis, Vol. 4, The Chiral Carbon Pool and Chiral Sulfur, Nitrogen, Phosphorus, and Silicon Centers, Academic Press, Inc., Odando, Fla., 1984. 

R. Engel, Synthesis of Carbon—Phosphorus Ponds, CRC Press, Boca Raton, Fla., 1988. 

The exploration of the chemistry of azirines has led to the discovery of several pyrrole syntheses. From a mechanistic viewpoint the simplest is based upon their ability to behave as a-amino ketone equivalents in reactions analogous to the Knorr pyrrole synthesis cf. Section 3.03.3.2.2), as illustrated in Schemes 91a and 91b for reactions with carbanions. Parallel reactions with enamines or a-keto phosphorus ylides can be effected with electron-deficient 2//-azirines (Scheme 91c). Conversely, electron-rich azirines react with electron deficient alkynes (Scheme 91d). 

These a-acylaminoketones also provided a convenient synthesis of thiazoles on treatment with phosphorus pentasulfide (Gabriel s method). Although yields range from 45 to 80%, substituents are usually restricted to alkyl, aryl and alkoxy derivatives. Thus, reaction of the a-acylaminoketone (4) with P4S1Q gave the thiazole (5), and thiazole (7) itself was prepared in this manner in 62% yield from formylaminoacetal (6) (14CB3163). The corresponding 5-ethoxy compound was obtained from the a-formamidoester and phosphorus pentasulfide in an inert solvent. 

An interesting application of a phosphorus ylide in heterocyclic synthesis is in a ring annulation. The diazopyrazole (592) when treated with various phosphorus ylides gave the 3//-pyrazolo[5,l-c][l,2,4]triazole derivatives (593) with elimination of triphenylphosphine (79TL1567). 

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