Salts quaternary phosphonium

Halex rates can also be increased by phase-transfer catalysts (PTC) with widely varying stmctures quaternary ammonium salts (51—53) 18-crown-6-ether (54) pytidinium salts (55) quaternary phosphonium salts (56) and poly(ethylene glycol)s (57). Catalytic quantities of cesium duoride also enhance Halex reactions (58). 

The addition of P—H bonds across a carbonyl function leads to the formation of a-hydroxy-substituted phosphines. The reaction is acid-cataly2ed and appears to be quite general with complete reaction of each P—H bond if linear aUphatic aldehydes are used. Steric considerations may limit the product to primary or secondary phosphines. In the case of formaldehyde, the quaternary phosphonium salt [124-64-1] is obtained. 

The benzylation of a wide variety of aHphatic, aromatic, and heterocycHc amines has been reported. Benzyl chloride is converted into mono-, di-, and tribenzyl amines by reaction with ammonia. Benzylaniline [103-32-2] results from the reaction of benzyl chloride with aniline. Reaction with tertiary amines yields quaternary ammonium salts with trialkylpbospbines, quaternary phosphonium salts and with sulfides, sulfonium salts are formed. 

The quaternary phosphonium salt is prepared by refluxing for 12 hours or longer a mixture of 4.5 g of benzyl chloride and 13 g of triphenylphosphine in 70 ml of xylene. On cooling to approx. 60°, colorless crystals of benzyltriphenylphosphonium chloride can be filtered off, washed with xylene (approx. 50 ml) and dried. The yield is virtually quantitative, mp 310-311°. 

Finally, Cristau and coworkers have reported on a quite efficient preparation of triphenylphosphine oxide (Figure 2.13) by a similar addition-elimination reaction of red phosphorus with iodobenzene in the presence of a Lewis acid catalyst followed by oxidation of an intermediate tetraarylphosphonium salt.42 This approach holds the potential for the preparation of a variety of triarylphosphine oxides without proceeding through the normally used Grignard reagent. Of course, a variety of approaches is available for the efficient reduction of phosphine oxides and quaternary phosphonium salts to the parent phosphine, including the use of lithium aluminum hydride,43 meth-ylpolysiloxane,44 trichlorosilane,45 and hexachlorodisilane.46... 

Figure 5.5 Formation of a stable phosphorane from a quaternary phosphonium salt.

K. Manabe, Asymmetric Phase-Transfer Alkylation Catalyzed by a Chiral Quaternary Phosphonium Salt with a Multiple Hydrogen-Bonding Site , Tetrahedron Lett. 1998, 39, 5807-5810. 

K. Manabe, Synthesis of Nobel Chiral Quaternary Phosphonium Salts with a Multiple Hydrogen-Bonding Site, and Their Application to Asymmetric Phase-Transfer Alkylation , Tetrahedron 1998, 54, 14465-14476. 

Quaternary phosphonium salts, 10 413 Quaternary plutonium oxides, 19 689 Quaternary salts... 

Bis-acyl sulphides are obtained in only low yield by the standard reaction of sodium sulphide with an acyl chloride, but the addition of Adogen results in their viable synthesis with yields >70%. Examples using quaternary phosphonium salts provide the optimum yields (> 90%) [63]. Similarly, thiophenols have been benzoylated using benzoyl chloride under basic conditions in the presence of ammonium salts [12]. 

Starks, C. M. J. Am. Chem. Soc. 93 (1971) 195 Phase transfer catalysis I. Heterogeneous reactions involving anion transfer by quaternary phosphonium salts. 

Qaereboudt, J. Claeys, M. Geise, H. Gijbels, R. Vertes, A. Laser Microprobe-MS of Quaternary Phosphonium Salts Direct Versus Matrix-Assisted Laser Desorption. J. Am. Soc. Mass Spectrom. 1993,4,798-812. 

In a different approach [11] to access pure products, the use of strong oleum (65% SO3) for sulfonation of PPh3 resulted in quantitative formation of TPPTS oxide. This was converted to the ethyl suhbester through the reaction of an intermediate silver sulfonate salt (isolated) with iodoethane. Reduction with SiHCls in toluene/THF afforded tris(3-ethylsulfonatophenyl)phosphine which was finally converted to pure 3 with NaBr in wet acetone. In four steps the overall yield was 40% (for PPhs) which compares fairly with other procedures to obtain pure TPPTS. Since phosphine oxides are readily available from easily formed quaternary phosphonium salts this method potentially allows preparation of a variety of sulfonated phosphines (e.g. (CH3)P(C6H4-3-S03Na)2). 

Tundo, P. and Selva, M. (2005). Continuous-flow, gas phase synthesis of 1-chlorobutane (1-bromobutane) from 1-butanol and aqueous HCl (HBr) over silica-supported quaternary phosphonium salt. Green Chem., 7,464-467. 

Nickel (continued) polysulfide complex, 31 98 half chair conformation, 31 115 porphyrin complexes, 32 13 in proteins, 47 284-285 quadruply bridged dimers, 40 211-214 steric structures, 40 190-194 quaternary phosphonium salts of, 6 31-32 redox chemistry probes of structure, 32 243-245 steric and electronic requirements, 32 242-243... 

Reactions conducted in molten quaternary phosphonium salts require no other solvent (199). This material serves as both promoter and reaction medium. Care must be exercised in choosing the salt in such a reaction, since any decomposition could lead to products such as trialkylphosphines and alkyl halides which are expected to be deleterious to catalyst performance. Tetrabutylphosphonium bromide is reported to provide a stable catalyst medium which can be recycled (199, 200), but other related salts show evidence of thermal decomposition during catalytic reactions. Experiments in tetrabutylphosphonium acetate, for example, are found to produce large amounts of methyl and ethylene glycol acetate esters (199). 

The action of water on cyanines 8d for longer periods of time (with or without careful exclusion of oxygen) leads to 1,3-diefhyl-benzimidazolium-tetrafluoroborate 19. This corresponds to the hydrolytic cleavage of quaternary phosphonium salts. 

TABLE 26. Half-life periods r1/2 for the degradation of quaternary phosphonium salts R4P+ Y" in a chlorobenzene-50% aqueous NaOH two-phase system under phase-transfer catalysis in the absence (A)a and presence (B)fc of a molar excess of the corresponding inorganic salt (NaY)727... 

The results of the pulse radiolysis in aqueous solution of substituted phosphonium ions have been investigated38 in addition to those of the electrode reduction of benzyl triphenyl-phosphonium ion39 and quaternary phosphonium salts with hydrated electrons40-42. The radiolysis of methyltriphenylphosphonium, dimethyldiphosphonium and trimethyl-phenylphosphonium ions in neutral aqueous solutions leads to phosphoranyl radicals... 

A large variety of phosphorus derivatives can also be used. R2PCI can be used to give a quaternary phosphonium salt directly. Cyclic phosphinous chlorides are also effective and some examples have already been mentioned. Also, the different reactivities of chloro and bromo phosphines, the former giving largely 2-phosphoIene and the latter 3-phos-pholene derivatives, should be noted. 

In the first step a Wittig reaction" is used to transform the aldehyde into a terminal olefin. This requires initial preparation of a quaternary phosphonium salt. The latter is then deprotonated with sodium amide to give phosphorus ylide 46, which after nucleophilic attack on aldehyde 12 leads to the oxaphosphetane intermediate 47. This intermediate in turn decomposes into olefin 48 and triphenylphosphine oxide. 

Triphen) Iphosphine first attacks at the azo nitrogen atom of DEAD to produce the quaternary phosphonium salt 20 This depro-tonates succiniinide 5 with the formation of intermediate 21 Alcohol 6 reacts with 21, in the course of which diethylhydra/ine dicar-boxylate 22 is formed along with the alkylated phosphine oxide 23. 

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