Aluminum hydride anion

Compare atomic charges for sodium borohydride and lithium aluminum hydride. Which ion contains the most electron-rich hydride The least electron-rich hydride Based on these results alone, which hydride reagent should be the better reducing agent Explain. Obtain atomic charges for free borohydride and aluminum hydride anions. What changes, if any, does the counterion produce ... 

The isoquinoline ring undergoes attack by the nucleophilic aluminum hydride anion in much the same manner as the pyridine ring to produce 1,2-dihydroisoquinolines,91,92 although tetrahydroisoquino-lines have been reported as products even though no proton source was apparently present.92 (For a probable mechanism see Section IV,B.) The reduction of isoquinoline A-oxide by lithium aluminum hydride was also reported to yield the 1,2-dihydroisoquinoline.93... 

Cationic rings are readily reduced by complex hydrides under relatively mild conditions. Thus isoxazolium salts with sodium borohydride give the 2,5-dihydro derivatives (217) in ethanol, but yield the 2,3-dihydro compound (218) in MeCN/H20 (74CPB70). Pyrazolyl anions are reduced by borohydride to pyrazolines and pyrazolidines. Thiazolyl ions are reduced to 1,2-dihydrothiazoles by lithium aluminum hydride and to tetrahydrothiazoles by sodium borohydride. The tetrahydro compound is probably formed via (219), which results from proton addition to the dihydro derivative (220) containing an enamine function. 1,3-Dithiolylium salts easily add hydride ion from sodium borohydride (Scheme 20) (80AHC(27)151). 

REDUCTIVE RING CONTRACTION OF , DISUBSTITUTED SULFOLANE ANIONS WITH LITHIUM ALUMINUM HYDRIDE... 

During the course of these mechanistic studies a wide range of possible applications of this reaction have been revealed. When the reduction is carried out with lithium aluminum deuteride and the anion complex decomposed with water, a monodeuterio compound (95) is obtained in which 70% of the deuterium is in the 3a-position. Reduction with lithium aluminum hydride followed by hydrolysis with deuterium oxide yields mainly (70 %) the 3j5-di-epimer (96), while for the preparation of dideuterio compounds (94) both steps have to be carried out with deuterated reagents. ... 

Closely related to, but distinct from, the anionic boron and aluminum hydrides are the neutral boron (borane, BH3) and aluminum (alane, A1H3) hydrides. These molecules also contain hydrogen that can be transferred as hydride. Borane and alane differ from the anionic hydrides in being electrophilic species by virtue of the vacant p orbital and are Lewis acids. Reduction by these molecules occurs by an intramolecular hydride transfer in a Lewis acid-base complex of the reactant and reductant. 

Reductions of certain aromatic ketones with metal hydrides have been shown to involve radical intermediates formed by an electron-transfer mechanism (25). For example, the reaction of aluminum hydride with dimesityl ketone in THF produced a violet solution that gave an EPR spectrum indicative of the presence of a paramagnetic species. The paramagnetic species is an intermediate in the reduction of the ketone, and is believed to be a radical cation-radical anion pair (25). 

Miscellaneous Compounds. A saturated spirocychc pyrrohdine serves as the nucleus for a diamine that has been described as a hypohpemic agent. Treatment of the carbanion of the substituted cylcohexane carboxyhc ester (20-1) with methyl bromoacetate leads to the alkylation and formation of the diester (20-2). Saponification of the ester groups followed by reaction with acetic anhydride leads to ring closure of the succinic anhydride (20-3). Condensation with ammonia leads to the succinimide (20-4). The side chain is then added by alkylation of the anion on nitrogen with l-bromo-4-dimethylaminobutane (20-5). Reaction of this last intermediate with lithium aluminum hydride leads to the reduction of the carbonyl groups to methylene. This affords the pyrrolidine (20-6) atiprimod [22]. 

Pyrimidine and simple alkyl derivatives are not reduced by NaBH4. Lithium aluminum hydride converts pyrimidines to di- or tetra-hydro derivatives. In general, electron-withdrawing substituents promote reduction of the ring, while electron-releasing substituents have the opposite effect. The metal hydride may act as a base and abstract a proton from the a-position in a substituent, in which case the anionic substrate may resist reduction in the ring. 

Elaboration of 2-isoxazolines via their 4-endo-anions has been studied as a method to synthesize y-amino alcohols (78TL3129,3133,81AG(E)601,603). When the 5-methyl-3-phenyl-2-isoxazoline (527) was deprotonated with LDA/HMPA and methylated with methyl iodide, the tra 5-4,5-substituted isoxazoline (528) was formed predominantly (trans-.cis = 12 1). Reduction of this isoxazoline with lithium aluminum hydride proceeded with steric approach control to provide a diastereomeric mixture of y-amino alcohols (529, 530 Scheme 116). The 5-substituent was found to exhibit a greater steric influence on this reaction than the 4-substituent. 

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