Cinnamyl alcohol preparation

The cinnamyl ester can be prepared from an activated carboxylic acid derivative and cinnamyl alcohol it is cleaved under nearly neutral conditions [Hg(OAc)2, MeOH, 23°, 2-4 h KSCN, H2O, 23°, 12-16 h, 90% yield]. 

The cinnamyl ester can be prepared from an activated carboxylic acid derivative and cinnamyl alcohol or by transesterification with cinnamyl alcohol in the presence of the H-Beta Zeolite (toluene, reflux, 8 h, 59-96% yield). It is cleaved under nearly neutral conditions [Hg(OAc)2, MeOH, 23°, 2-A h KSCN, H2O, 23°, 12-16 h, 90% yield]or by treatment with Sulfated-Sn02, toluene, anisole, reflux. The latter conditions also cleave crotyl and prenyl esters. 

Phenyl-propyl alcohol, CgH. CHj. CH.2. CHj. OH, is the next highest homologue of phenyl-ethyl alcohol, and is also known as hydro-cinnamyl alcohol. Like the last described bodies it has been known for many years, its first preparation being described in the Aivnalen (188, 202). It occurs as a cinnamic acid ester in storax, and as an acetic ester in cassia oil. It is prepared synthetically by the reduction of cinnamyl alcohol with sodium amalgam and water, or by the reduction of cinnamic or benzyl acetic esters with sodium and absolute alcohol. It has the following characters —... 

CHROMIUM TRIOXIDE-PYRIDINE COMPLEX, preparation in situ, 55, 84 Chrysene, 58,15, 16 fzans-Cinnamaldehyde, 57, 85 Cinnamaldehyde dimethylacetal, 57, 84 Cinnamyl alcohol, 56,105 58, 9 2-Cinnamylthio-2-thiazoline, 56, 82 Citric acid, 58,43 Citronellal, 58, 107, 112 Cleavage of methyl ethers with iodotri-methylsilane, 59, 35 Cobalt(II) acetylacetonate, 57, 13 Conjugate addition of aryl aldehydes, 59, 53 Copper (I) bromide, 58, 52, 54, 56 59,123 COPPER CATALYZED ARYLATION OF /3-DlCARBONYL COMPOUNDS, 58, 52 Copper (I) chloride, 57, 34 Copper (II) chloride, 56, 10 Copper(I) iodide, 55, 105, 123, 124 Copper(I) oxide, 59, 206 Copper(ll) oxide, 56, 10 Copper salts of carboxylic acids, 59, 127 Copper(l) thiophenoxide, 55, 123 59, 210 Copper(l) trifluoromethanesulfonate, 59, 202... 

In 1998, Kurt and Halm reported the preparation of resin-based bis(sulfo-namides) ligands in order to extend the precedent methodology to the solid phase. Therefore, the solid-phase catalyst depicted in Scheme 6.21 was found to be able to mediate the Simmons-Smith cyclopropanation of cinnamyl alcohol with an enantioselectivity of 65% ee. 

Tomoxetine and fluoxetine are antidepressants. Both enantiomers of each compound can be prepared enantiospecifically starting from cinnamyl alcohol. Give a reaction sequence that will accomplish this objective. 

In 1996, Liu et al. reported the selective hydrogenation of cinnamaldehyde, an a,/ -unsaturated aldehyde, to cinnamyl alcohol, an a,/ -unsaturated alcohol, by means of PVP-protected Pt/Co bimetallic colloids prepared by the polyol process [111]. The colloids were obtained as a dark-brown homogeneous dispersion in a mixture of ethylene glycol and diethylene glycol, and characterized by TEM and XRD. These authors prepared different samples of nanoparticles with Pt Co ratios of 3 1 and 1 1, the mean diameters of which measured 1.7 and 2.2 nm, respectively. These colloidal systems were also compared with the single metal-... 

Via Asymmetric Epoxidation and Related Reactions. Denis et al.35 synthesized the taxol side chain derivative via Sharpless epoxidation. Starting from cw-cinnamyl alcohol, the corresponding epoxide compound was prepared with 76-80% ee. Subsequent azide ring opening gives a product that possesses the side chain skeleton (Scheme 7-78). 

Cinnamyl bromide has been prepared from cinnamyl alcohol by the action of hydrogen bromide in cold acetic acid2 and of phosphorus tribromide in boiling benzene.3 It has also been... 

By means of this reduction process it is possible to obtain, from the corresponding aldehydes, alcohols such as trichloroethyl alcohol or cinnamyl alcohol, which are not otherwise readily accessible or are otherwise inaccessible. Tnbromoethyl alcohol ( avertin ), an important narcotic, is prepared in this way (F. F. Nord). It is given by the rectum. 

Many more examples exist for reduction of the carhonyl only. Over an osmium catalyst [763] or platinum catalyst activated by zinc acetate and ferrous chloride [782] cinnamaldehyde was hydrogenated to cinnamyl alcohol. The same product was obtained by gentle reduction with lithium aluminum hydride at —10° using the inverse technique [609], by reduction with alane (prepared in situ from lithium aluminum hydride and aluminum chloride)... 

While most of the iminium salts studied are cyclic, several acyclic iminium salts have also been investigated. In 1997, Armstrong and coworkers reported the use of acyclic iminium salt 83 as chiral epoxidation promoter (Fig. 27) [156, 157]. 1-Phenylcyclohexene oxide could be obtained in 100% conversion and 22% ee with stoichiometric amounts of 83. In 2002 acyclic iminium salt 84, prepared from L-prolinol, was investigated by Komatsu and coworkers, and cinnamyl alcohol was epoxidized in 70% yield and 39% ee (Fig. 27) [158]. 

Cinnamyl alcohols.1 These alcohols can be prepared by oxidation of 3-arylpropenes with selenium dioxide in dioxane. The yield compares favourably with that oblained by LiAlH4 reduction of esters of cinnamic acids. 

A porous clay heterostructure was prepared by an intragallery templating process using synthetic saponite as the layered host. The SAP-PCH exhibits a basal spacing of 32.9 A, a surface area of 850m2/g, and a pore volume of 0.46 cm3/g. The material was successfully employed as solid acid catalyst in the Friedel-Crafts alkylation of bulky 2, 4-di-tert-butylphenol (DBP) (molecular size (A) 9.5x6.1x4.4) with cinnamyl alcohol to produce 6,8-di-tert-butyl-2, 3-dihydro[4H] benzopyran (flavan) (molecular size (A) 13.5x7.9x 4.9). A much higher yield of flavan (15.3%) was obtained over PCH as compared with H+-Saponite (1.2%). It is also confirmed by this reaction that mesoporosity was formed in the PCH. 

A third approach to the preparation of allyl lluorovinyl ethers is the reaction of an allylic alcohol with trifluoroacetaldehyde, as illustrated by an alternative synthesis of 37a.17 Cinnamyl alcohol (47) forms with trifluoroacetaldehyde a hemiacetal, which is converted into bromide 48 via the mesy late. Reductive elimination affords 37a, which undergoes Claisen rearrangement within one hour in refluxing carbon tetrachloride to give 2,2-difluoro-3-phenylpent-4-enal (38a).17... 

Besides, benzoannelated tetrahydrofuro[2,3fo]furans such as 8 were also efficiently prepared by hydroformylation of o-hydroxy cinnamyl alcohols, using the Rh(acac)(CO)2/PPh3 catalyst system in 1,4-dioxane (Scheme 5). 

Long-range electron transfer is postulated to occur from ferrocene to tris(bipyridine)iron(lll) constructed within the pores of a NaY zeoUte. The iron bipyridine complex is too large to move throughout the faujasite pores to the surface, thus requiring the long-range transfer. The asyimnetric catalyst, titanium tartrate, has been prepared inside NaY and used as an immobilized catalyst for the epoxidation of cinnamyl alcohol. ... 

Olefinic alcohols react smoothly with hydrogen over platinum oxide catalyst at room temperature. The procedure is illustrated by the preparation of dihydrocholesterol from cholesterol. Cinnamyl alcohol. CjH5CH = CHCH20H, is reduced to dihydrocinnamyl alcohol by lithium aluminum hydride. The reduction of allyl alcohol to n-propyl alcohol by the reagent, however, is unsatisfactory, ... 

The best reagents for reduction of olefinic aldehydes to olefinic alcohols are lithium aluminum hydride and sodium borohydride. Crotyl alcohol, CHjCH = CHCHjOH, and cinnamyl alcohol, CjH,CH =CHCHjOH, have been prepared in excellent yields. Cinnamyl alcohol is further reduced at higher temperatures to hydrocinnamyl alcohol. Citral, (CHj)jC =CHCHjCHjC(CH3)=CHCHO, may be selectively reduced to the ctOTesponding dienol by catalytic hydrogenation over platinum catalyst. A new method for the preparation of enediol esters of the type... 

Acetoacetates or benzoylacetates of /3,y-unsaturated alcohols—methal-lyl alcohol, crotyl alcohol, methylvinylcarbinol, cinnamyl alcohol, etc.— on heating at 170-250° evolve carbon dioxide and produce %8-olefinic ketones (23-88%). The unsaturated acetoacetates are readily prepared by the action of diketene on the corresponding unsaturated alcohols. 

Aqueous solutions of bisulfites react with olefins in the presence of oxygen or certain oxidizing agents. Addition of the bisulfite takes place by a free-radical mechanism contrary to Markownikoff s rule. The yields of sulfonates are usually low (12-62%). Styrene gives mainly 2-hydroxy-2-phenylethanesulfonic acid. Bisulfite has also been added to the double bonds in allyl and cinnamyl alcohols. /3-Sulfocarboxylic acids are prepared in this way from a,/3-olefinic acids. /3,/3-Disulfopropionic acid is made in 80% yield by the addition of two molecules of bisulfite to... 

Asymmetric Intramolecular Hydrosilation. Intramolecular hydrosilation of allylic alcohols followed by oxidation is a convenient method for the stereoselective preparation of 1,3-diols. An enantioselective version is achieved by use of diene-free BINAP-Rh+ (eq 6). Both silyl ethers derived from cinnamyl alcohol and its cis isomer give (iJ)-l-phenylpropane-l,3-diol in high ee regardless of alkene geometry. 

In 1992 Kobayashi et al. [47] reported the first catalytic and enantioselective cyclo-propanation using the Furukawa modification [48] of the Simmons-Smith reaction of allylic alcohols in the presence of a chiral bis(sulfonamide)-Zn complex, prepared in-situ from the bis(sulfonamide) 63 and diethylzinc. When cinnamyl alcohol 62 was treated with EtgZn (2 equiv.), CHgIg (3 equiv.), and the bis(sulfonamide) 63 (12 mol %) in dichloromethane at -23 °C, the corresponding cyclopropane 64 was obtained in 82 % yield with 76 % ee (Sch. 26). They proposed a transition state XXIII (Fig. 5) in which the chiral zinc complex interacts with the oxygen atom of the allylic alkoxide and the iodine atom of iodomethylzinc moiety. They also reported the use of the bis(sulfonamide)-alkylaluminum complex 65 as the Lewis acidic component catalyzing the Simmons-Smith reaction [49]. 

The scope of the reaction was examined with a catalyst prepared from the benzene sulfonamide and DIBAL, because it was found that essentially the same induction could be obtained as with those obtained from tri-/so-butyl aluminum. Two years earlier the authors had reported that this Simmons-Smith reaction could also be catalyzed by the aluminum-free sulfonamide 132 (optimum with Ar = /7-NO2C6H4) the induction obtained is listed in the far right column of Table 8 [34]. It was proposed that a zinc complex of 132 is generated in-situ. Surprisingly, with the exception of the silyl-substituted allyl alcohol (the last entry in the table) [35], almost identical asymmetric induction obtained by use of the aluminum-containing and aluminum-free catalysts. The main advantage of the diazaaluminolidine catalyst is that it is apparently more soluble than the aluminum-free bis-sulfonamide catalyst, with the result that a tenfold increase in concentration (0.1 m) can be used this might explain the increased rate observed for the diazaaluminolidine catalyst. Finally, it has recently been reported that a catalyst formed from the Ci symmetrical sulfonamide 135 and DIBAL will induce the formation of 131 from cinnamyl alcohol in 68 % ee [36]. 

The 2.2-dimethyl-2H-benzpyran system Is the parent skeleton of a number of anti-juvenile hormone compounds this ring system has now been prepared by electron transfer sensitised irradiation of alkoxy-substituted cinnamyl alcohols. 

Recently, two other groups have shown that exocyclic iminium salts can be useful mediators in asymmetric epoxidation. Komatsu has developed a system based on ketiminium salts [14], prepared through the condensation of aliphatic cyclic amines with ketones. A chiral variant was also produced, derived from prolinol and cyclohexanone, which gave 70% yield and 39% ee for cinnamyl alcohol (Scheme 5.7). 

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