Grignard reagents mechanisms

MECHANISM Grignard Reagent Reacting with Formaldehyde... 

Note on the mechanism of some syntheses with the Grignard reagent... 

Method 2. Equip a 1 htre thre necked flask with a double surface reflux condenser, a mechanical stirrer and a separatory funnel, and place 12 -2 g. of dry magnesium turnings, a crystal of iodine, 50 ml. of sodium-dried ether and 7-5 g. (5 ml.) of a-bromonaphthalene (Section IV,20) in the flask. If the reaction does not start immediately, reflux gently on a water bath until it does remove the water bath. Stir the mixture, and add a solution of 96 g. (65 ml.) of a-bromonaphthalene in 250 ml. of anhydrous ether from the separatory funnel at such a rate that the reaction is vmder control (1 -5-2 hours). Place a water bath under the flask and continue the stirring and refluxing for a further 30 minutes. The Grignard reagent collects as a heavy oil in the bottom of the flask ... 

Sodium borohydride and lithium aluminum hydride react with carbonyl compounds in much the same way that Grignard reagents do except that they function as hydride donors rather than as carbanion sources Figure 15 2 outlines the general mechanism for the sodium borohydride reduction of an aldehyde or ketone (R2C=0) Two points are especially important about this process... 

A mechanism of the 1,2-addition of Grignard reagents to ketones has been suggested by Swain involving a six-membered cyclic transition state. Ashby proposed a detailed mechanism as shown in (l)-(2). 

The aforementioned mechanism is supported by the following experimental data. When oxime 13 was treated with Grignard reagent, 3% of the indole 15 was isolated, indicating the possible existence of nitrene intermediate 14. A 2-phenylazirine intermediate, on the other hand, has been isolated and characterized from the reaction under carefully controlled conditions (adding Grignard reagent to the oxime in toluene). ... 

Grignard reagents with LiAlUt. Evidently, the R would be hydride in this case. The mechanism is strikingly similar to that of the Hoch-Campbell reaction except the azirine is attacked by hydride rather than the Grignard reagent. 

Hydroxyquinazolines react with primary amines or hydrazines to form 3-substituted 4(3//)quinazolinones (15). > The mechanism was shown to involve ring opening because with secondary amines (where ring closure is not possible) A-disubstituted benzamides are formed. Grignard reagents do not always react in the normal way with... 

An alternative radical mechanism is formulated as the transfer of a single electron from the Grignard reagent 2 onto the carbonyl group (single electron transfer... 

Grignard reagents do react with epoxides 24 by an SN2-mechanism, resulting in a ring-opening reaction. An epoxide carbon bearing no additional substituent—i.e. a methylene group—is more reactive towards nucleophilic attack than a substituted one ... 

As with the reduction of carbonyl compounds discussed in the previous section, we ll defer a detailed treatment of the mechanism of Grignard reactions until Chapter 19. For the moment, it s sufficient to note that Grignard reagents act as nucleophilic carbon anions, or carbanions ( R ), and that the addition of a Grignard reagent to a carbonyl compound is analogous to the addition of hydride ion. The intermediate is an alkoxide ion, which is protonated by addition of F O"1 in a second step. 

Acid halides are among the most reactive of carboxylic acid derivatives and can be converted into many other kinds of compounds by nucleophilic acyl substitution mechanisms. The halogen can be replaced by -OH to yield an acid, by —OCOR to yield an anhydride, by -OR to yield an ester, or by -NH2 to yield an amide. In addition, the reduction of an acid halide yields a primary alcohol, and reaction with a Grignard reagent yields a tertiary alcohol. Although the reactions we ll be discussing in this section are illustrated only for acid chlorides, similar processes take place with other acid halides. 

The mechanism of this Grignard reaction is similar to that of L1AIH4 reduction. The first equivalent of Grignard reagent adds to the acid chloride, loss of (T from the tetrahedral intermediate yields a ketone, and a second equivalent of Grignard reagent immediately adds to the ketone to produce an alcohol. 

Conversion of Esters into Alcohols Grignard Reaction Esters and lactones react with 2 equivalents of a Grignard reagent to yield a tertiary alcohol in which two of the substituents are identical (Section 17.5). The reaction occurs by the usual nucleophilic substitution mechanism to give an intermediate ketone, which reacts further with the Grignard reagent to yield a tertiary alcohol. 

The high diastereoselectivity which is found in the nucleophilic addition of Grignard reagents to chiral 2-0x0 acetals can be explained by a chelation-controlled mechanism. Thus, coordination of the magnesium metal with the carbonyl oxygen and the acetal moiety leads to a rigid structure 3A in the transition state with preferred attack of the nucleophile occurring from the S/-side. 

Very recently, a dry-stir method for the mechanical activation of commercial magnesium turnings was reported16. The procedure is also excellently suited for the preparation of allylic and benzylic Grignard reagents (Table 1, method B). 

The synthesis and mechanism of formation of a triazene from an arenediazonium ion and an amine with one or two aliphatic substituents (see Scheme 13-1, R = alkyl, R = H or alkyl) will be discussed in Section 13.2. Here we will briefly mention Dimroth s method (1903, 1905 a) for synthesis of wholly aliphatic triazenes (Scheme 13-6, R and R = alkyl). Dimroth obtained these by the action of Grignard reagents on alkyl azides followed by isolation via copper(i) salts. The Grignard method can also be applied for the synthesis of triazenes with an aromatic substituent by using an aryl azide. 

When a sulfonate ester possessing this type of chirality was converted to a sulfone with a Grignard reagent (10-129), inversion of configuration was found. This is not incompatible with an intermediate such as 147 but it is also in good accord with an Sn2 like mechanism with backside attack. 

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