Tertiary nitriles reactions

Enamine salts react with many nucleophilic reagents. The reaction with the cyanide ion is noteworthy. l-Methyl-2-ethyl-2-cyanopyrrolidine (170) is formed on treatment of alkali cyanide with l-methyl-2-ethyl-.d -pyrrolin-ium perchlorate (242). The reduction of the tertiary nitrile (170) with... 

Reductive decyanation. K-A1203 reduces alkyl nitriles in hexane at 25° in 70-90% yield. The reaction is rapid for secondary and tertiary nitriles but requires about 1 hour for primary nitriles. Potassium alone is less efficient. The reaction was useful in a synthesis of the sex pheromone 1. 

The reactions of Grignard reagents with aldehydes and ketones give alcohols, reaction with acid chlorides and esters give tertiary alcohols, reaction with carbon dioxide to give carboxylic acids, reaction with nitriles give ketones, and reaction with epoxides give alcohols. 

Hindered tertiary nitriles can be hydrolyzed under neutral and mild conditions to the corresponding amides by using the above-mentioned platinum(II) catalysts with dimethylphosphine oxide or other SPOs as ligands. Nitriles containing acid- or base-sensitive groups are converted with unprecedented selectivity by this procedure. The ratio of the concentration of the catalyst to that of the reactant can be as low as 0.5 mol%. Reactions are carried out at 80 °C but take place even at room temperature. 

Tertiary nitriles can be prepared by a similar reaction with tertiary chlorides. Example ... 

It was discovered by Hofmann and is therefore known as the Hofmann iso-cyanide or iso-nitrile reaction. In this connection the other tests for primary, secondary and tertiary amines should be recalled (pp. S9-6i). 

With secondary halides or sulfonates only moderate yields are obtained, while tertiary substrates fail due to side reactions involving elimination. The most effective solvents are usually polar ones such as DMF, DMSO, aqueous methanol or ethanol and 2-metho-xyethanol. Tertiary nitriles can be prepared by SnCLi-catalyzed reaction of the... 

The imides, primaiy and secondary nitro compounds, oximes and sulphon amides of Solubility Group III are weakly acidic nitrogen compounds they cannot be titrated satisfactorily with a standard alkaU nor do they exhibit the reactions characteristic of phenols. The neutral nitrogen compounds of Solubility Group VII include tertiary nitro compounds amides (simple and substituted) derivatives of aldehydes and ketones (hydrazones, semlcarb-azones, ete.) nitriles nitroso, azo, hydrazo and other Intermediate reduction products of aromatic nitro compounds. All the above nitrogen compounds, and also the sulphonamides of Solubility Group VII, respond, with few exceptions, to the same classification reactions (reduction and hydrolysis) and hence will be considered together. 

The tertiary amine is formed in a similar manner from the imine and a secondary amine. This side reaction can be minimized by carrying out the hydrogenation in the presence of ammonia, which tends to shift the equiHbrium back towards the imine. When a compound with two or more nitrile groups is hydrogenated, the formation of both cycHc and acycHc secondary and tertiary amines is possible, depending on whether the side reaction is intramolecular or intermolecular. For example, for the hydrogenation of adiponitfile ... 

Catalytic hydrogenation of the nitrile function of cyanohydrins can give amines. As in the case of ordinary nitriles, catalytic reduction of cyanohydrins can yield a mixture of primary, secondary, and tertiary amines. Addition of acid or acetic anhydride to the reaction medium minimizes formation of secondary or tertiary amines through formation of the amine salt or acetamide derivative of the primary amine. 

Nucleophilic substitution by cyanide ion (Sections 8.1, 8.13) Cyanide ion is a good nucleophile and reacts with alkyl halides to give nitriles. The reaction is of the S m2 type and is limited to primary and secondary alkyl halides. Tertiary alkyl halides undergo elimination aryl and vinyl halides do not react. 

Nearly every substitution of the aromatic ring has been tolerated for the cyclization step using thermal conditions, while acid-promoted conditions limited the functionality utilized. Substituents included halogens, esters, nitriles, nitro, thio-ethers, tertiary amines, alkyl, ethers, acetates, ketals, and amides. Primary and secondary amines are not well tolerated and poor yield resulted in the cyclization containing a free phenol. The Gould-Jacobs reaction has been applied to heterocycles attached and fused to the aniline. 

The reaction works well with primary alkyl halides, especially with allylic and benzylic halides, as well as other alkyl derivatives with good leaving groups. Secondary alkyl halides give poor yields. Tertiary alkyl halides react under the usual reaction conditions by elimination of HX only. Nitriles from tertiary alkyl halides can however be obtained by reaction with trimethylsilyl cyanide 4 ... 

Beagents for the derivatization of alcohols show variable reactivity and those containing an acid chloride or nitrile group require anhydrous conditions. DMOQ-CONj is the only reagent that reacjts to a significant extent with tertiary alcohols. The product of the reaction is a carbamic acid ester. Detection limits for alcohol derivatives are also frequently nc e than modest... 

The addition of Grignard reagents to aldehydes, ketones, and esters is the basis for the synthesis of a wide variety of alcohols, and several examples are given in Scheme 7.3. Primary alcohols can be made from formaldehyde (Entry 1) or, with addition of two carbons, from ethylene oxide (Entry 2). Secondary alcohols are obtained from aldehydes (Entries 3 to 6) or formate esters (Entry 7). Tertiary alcohols can be made from esters (Entries 8 and 9) or ketones (Entry 10). Lactones give diols (Entry 11). Aldehydes can be prepared from trialkyl orthoformate esters (Entries 12 and 13). Ketones can be made from nitriles (Entries 14 and 15), pyridine-2-thiol esters (Entry 16), N-methoxy-A-methyl carboxamides (Entries 17 and 18), or anhydrides (Entry 19). Carboxylic acids are available by reaction with C02 (Entries 20 to 22). Amines can be prepared from imines (Entry 23). Two-step procedures that involve formation and dehydration of alcohols provide routes to certain alkenes (Entries 24 and 25). 

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