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Grignard reaction alcohol synthesis

Octaalkyl-substituted phthalocyanine [152] can be synthesized by bromin-ation of dialkylbenzene accessible via a Grignard reaction. The synthesis of the alkoxy-substituted phthalocyanines [153] starts from catechol. The reaction with alkylhalide is followed by a bromination in positions 4 and 5. Alkoxy-methyl-substituted phthalocyanines [154] are obtained by substitution of o-xylene with bromine and subsequent radical bromination of the two methyl groups of l,2-dibromo-4,5-dimethylbenzene. The alkoxy groups are introduced by reacting the tetrabromo compound with the corresponding alcoholate. [Pg.94]

Alcohol synthesis via the reaction of Grignard reagents with carbonyl com pounds (Section 14 6) This is one of the most useful reactions in synthetic organ ic chemistry Grignard reagents react with formaldehyde to yield primary alco hols with aldehydes to give secondary alcohols and with ketones to form terti ary alcohols... [Pg.616]

Alcohol synthesis via the reaction of Grignard reagents with carbonyl compounds (Section 14.6) This is one of the... [Pg.616]

Halo-l-benzothiepins 4 can be synthesized by the treatment of 7a-halobenzo[fe]cyclopropa-[e]thiopyran-7-ols 2 with hydrogen bromide and subsequent hydrogen bromide elimination from the 2,4-dihalo-2,3-dihydro-l-benzothiepins 3 by l,5-diazabicyclo[4.3.0]non-5-ene (DBN).9 The alcohols 2 are prepared by Grignard reaction of the corresponding 7a-halobenzo[ft]cyclopropa[c]thiopyran-7-ones l18 and are used for the synthesis without purification. The intermediate dihalodihydro-l-benzothiepins 3 are not isolated due to their thermal lability related and more stable compounds are described in Section 2.1.2.1. [Pg.80]

Finally, the necessity arose for the synthesis of pentulose 21, labeled with, 3C on the central carbons, C-2 and C-3, for an independent biosynthetic study, which is reported in Section III.5.27 The doubly labeled ester 34 (Scheme 14) is readily available by a Wittig- Homer condensation of benzyloxyacetaldehyde with commercially available triethylphosphono-(l,2-l3C2)acetate. Chirality was introduced by the reduction of ester 34 to the allylic alcohol, which produced the chiral epoxide 35 by the Sharpless epoxidation procedure. This was converted into the tetrose 36, and thence, into the protected pentulose 37 by the usual sequence of Grignard reaction and oxidation. [Pg.281]

Remember, however that CHAOS does not intend to be a database of "synthetic methods" presently available to organic chemists. CHAOS is aimed at finding the intermediate precursors of the "synthesis tree" by means of selected basic disconnections (either "consonant" or "dissonant"). In the author s view, it is of minor importance, for instance, how a "carbene" -resulting from a -(2 + 1) cycloelimination- is generated, or whether a double bond is the direct result of a Wittig reaction or the dehydration of an alcohol formed in a Grignard reaction. In... [Pg.427]

Precursor y-halogeno alcohols are frequently prepared by the classic sequence of addition of hydrogen halide to a,/3-unsaturated aldehydes, ketones, acids or esters, followed by Grignard reaction or hydride reduction. Recently a novel and general synthesis of 3-methoxyoxetanes from 3-phenylseleno-2-propenal was reported. This method comprises a sequence of Grignard addition to the aldehyde function, treatment with two equivalents of MCPBA, and then reaction with methanolic sodium hydroxide (equation 78) (80JOC4063). [Pg.391]

Reaction XLIII. (a) Formation of Esters by the action of Acid Anhydrides or of Acid Chlorides on an Alcohol in the presence of Magnesium Alkyl Halide (Grignard). (B., 39, 1738.)—This application of the Grig-nard reaction to the preparation of esters is of theoretical rather than practical interest as illustrating the wide applicability of this many-sided reaction. The steps in the synthesis will be clear from the examples given they are somewhat different from the usual phases of a Grignard reaction. [Pg.133]

Reaction I Alcohol synthesis from a Grignard reagent... [Pg.113]

Fig. Synthesis of primary, secondary, and tertiary alcohols by the Grignard reaction. Fig. Synthesis of primary, secondary, and tertiary alcohols by the Grignard reaction.
As an example of this strategy, let s consider the synthesis of 2-methyl-6-methylene-7-octen-4-ol, an insect pheromone. (As described in the Focus On box on pages 1025-1026, pheromones are compounds used by animals, especially insects, for communication.) The synthesis of this alcohol, a component of the sex attractant of the male bark beetle, has been described in the literature. Retrosynthetic analysis, similar to that described earlier, suggested the use of a Grignard reaction to prepare this alcohol ... [Pg.1022]

CHAPTER 7 CHAPTER 8 CHAPTER 10 CHAPTER 11 CHAPTER 15 CHAPTER 17 CHAPTER 18 Acid-Catalyzed Dehydration of an Alcohol 313 Electrophilic Addition to Alkenes 330 Grignard Reactions 443 The Williamson Ether Synthesis 500 The Diels-Alder Reaction 684 Electrophilic Aromatic Substitution 757 Nucleophilic Additions to Carbonyl Groups 841 Formation of Imines 851 Formation of Acetals 856... [Pg.1292]

The last step of the synthesis is a reductive amination of a ketone that is formed by oxidation of the corresponding alcohol. The alcohol results from the Grignard reaction between cyclopentylmagnesium bromide and propylene oxide. [Pg.673]

Figure 12.10. Synthesis of a tertiary alcohol by the Grignard reaction. Figure 12.10. Synthesis of a tertiary alcohol by the Grignard reaction.
This disconnection represents the retro-Grignard reaction. It leads almost automatically to organomagnesium or lithium compounds as equivalents of carbanions and aldehydes or ketones as equivalents to the carbocation in the synthesis of alcohols (Scheme 2.35), or carbon dioxide in the synthesis of carboxylic acids. [Pg.91]

Grignard Synthesis.— The most important method for synthesizing aromatic alcohols is by the Grignard reaction, with magnesium alkyl or aryl halides (p. 77). The one given as an example of a tertiary aromatic alcohol may be prepared by the action of magnesium phenyl bromide, CeHs—Mg—Br, upon acetone. [Pg.642]

As in the Grignard reaction we may use any aliphatic aldehyde, ketone, ester or acid chloride, or an aryl compound of the same type and also, we may use either alkyl magnesium halides or aryl magnesium halides the synthesis makes possible the preparation of practically any desired secondary or tertiary alcohol either aliphatic or aromatic. Also if formaldehyde, in the form of its polymer, tri-oxy methylene, is used in the second reaction we will obtain primary alcohols. In the third reaction formic acid esters yield secondary instead of tertiary alcohols. These syntheses of alcohols by the Grignard reaction give us an idea of its importance in synthetic work. [Pg.644]

Derivatives of Menthene.— The most important alcohols and ketones derived from the menthene unsaturated group of terpenes are terpineol, di-hydro carveol, di-hydro carvone and pulegone. The first one, the alcohol terpineol, occurs in its dextro form in cardamon oil and marjoram oil, in its leoo form in neroU oil and in its inactive form in cajeput oil. The constitution is proven by Perkin s synthesis from As-tetra-hydro para-toluic acid by means of the Grignard reaction. [Pg.828]

See other pages where Grignard reaction alcohol synthesis is mentioned: [Pg.244]    [Pg.394]    [Pg.232]    [Pg.33]    [Pg.70]    [Pg.74]    [Pg.378]    [Pg.379]    [Pg.653]    [Pg.232]    [Pg.408]    [Pg.38]    [Pg.566]    [Pg.178]    [Pg.437]    [Pg.757]    [Pg.778]    [Pg.784]    [Pg.784]    [Pg.898]    [Pg.125]    [Pg.104]    [Pg.58]    [Pg.62]    [Pg.109]    [Pg.172]   


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