Phosphonium salts diene syntheses with

Before examining the reaction of deactivated alkenes, the phosphonium salt synthesis was applied to 1,3-dienes.21 When ( )-6-phenyl-l,3-hexadiene was treated with equimolar amounts of PPh3 and CF3S03H in the presence of RhH(PPh3)4 (2.5 mol%) in THF at 0 °C for 3 h, ( )-(6-phenyl-3-hexenyl)triphenylphosphonium salt was obtained in 89% yield after anion exchange with LiPF6 and recrystallization (Scheme 16). The addition of phosphine and hydrogen occurred at the 1- and 2-carbon atoms of the 1,3-diene, respectively. The reaction of (7)-1,3-dienes was then performed for comparison. 

The second synthesis of 654 and 655 makes use350,351 of the Wittig reaction. The (methylthio)methyl ether 656 is converted into the chloromethyl ether 657, which reacts with triphenylphosphine to yield a crystalline phosphonium salt (658). Reaction of 658 with phenyllithium gives a phosphorane, treatment of which with acryl-aldehyde leads to ethers 654 and 655 in —50% yield. Pure trtms-diene 654 was obtained352 in a reversed way consisting in preparation of a sugar ether acrylaldehyde (660) by replacement of the p-tolylsulfonyl group in 659, followed by reaction of 660 with methylenetriphenyl-phosphorane. 

Ferrocenyl ligands, via zinc reagents, 9, 120 Ferrocenylmethyl phosphonium salts, with gold(I), 2, 274 Ferrocenylmonophosphine, in styrene asymmetric hydrosilylation, 10, 817 Ferrocenyl oxazolines, synthesis, 6, 202 Ferrocenylphosphines with chromium carbonyls, 5, 219 in 1,3-diene asymmetric hydrosilylation, 10, 824-826 preparation, 6, 197 various complexes, 6, 201 Ferrocenylselenolates, preparation, 6, 188 Ferrocenyl-substituted anthracenes, preparation, 6, 189 Ferrocenyl terpyridyl compounds, phenyl-spaced, preparation 6, 188 Ferrocifens... 

The trimethylsilylated ylides (1), easily generated from trimethyl chlorosilane and ylides, react with aldehydes 2 to form vi-nylsilanes 3 (2,3). The vinylphosphonium silanolates 4 are also formed. Compounds 3 are versatile reagents for further reactions (4). The ylide J (with R1 =H) reacts with aldehydes 2 to give the dienes j). The oxidation of with the adduct 6, from triphenyl-phosphite and ozone, gives access to a generaT synthesis of acyl-silanes (trimethylsilylketones) (2). The silylated ylides react to form phosphonium salts 7 with halogen compounds. The salts 7.can be desilylated by fluorine ions. The disubstituted ylides JO Tormed can be converted in statu nascendi with aldehydes V[ into the tris-substituted olefin J2 (2,3). In the case of R3-I, vinyl... 

Axelrod et alP have describe the synthesis of 1,5-dienes by alkylation of an allylic phosphonium ylide with an allylic bromide. The method was used to synthesize pure all-( )-squalene from ( , )-fame-syl bromide and its tributylphosphonium salt. No isomerization occurred during the reaction and reduction of the resulting phosphonium salt with lithium in ethylamine gave squalene in 65% yield. 

A number of cycloaddition reactions involving allene derivatives as dienophiles have been recorded. Allene itself reacts only with electron-deficient dienes but allene carboxylic acid or esters, in which a double bond is activated by conjugation with the carboxylic group, react readily with cyclopentadiene to give 1 1 adducts in excellent yield. For example, the allene 12 gave, with very high yield and selectivity, the cycloadduct 13, used in a synthesis of (-)-P-santalene (3.19). An allene equivalent is vinyl triphenylphosphonium bromide, which is reported to react with a number of dienes to form cyclic phosphonium salts. These can be converted into methylene compounds by the usual Wittig reaction procedure (3.20). 

A concise synthesis of substituted stUbenes from propargylic phosphonium salts by a cobalt-catalyzed Diels-Alder/Wittig olefination reaction has been described (Figure 1.4) [37]. It was shown that the cobalt(I)Diels-Alder reaction of propargylic phosphonium salts and alkyne-fimctionalized phosphonium salts with 1,3-dienes led to dihydroaromatic phosphonium salt intermediates that were directly used in a one-pot Wittig-type olefination reaction with aldehydes. Subsequent oxidation led to styrene- and stUbene-type products with the formation of three new carbon-carbon bonds. The reaction gives predominantly the Econfigured products. 

Other Six-membered Ring Syntheses.— The reaction of butadienyltriphenyl-phosphonium salts with enolates is now an established method for the synthesis of cyclohexadienes. A variation on this theme makes use of butadienylsulphonium salts in an epoxy-annulation procedure [e.g. (137)— (138)]. A new route to l-acylcyclohexa-2,5-dienes [e.g. (141)] is initiated by a Michael addition of the phosphonium ylide (140) to a conjugated dienone (139). Schulz and Yoshikoshi and their respective co-workers have also exploited Michael additions to dienones in the course of syntheses of (142) and (143) respectively. 

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