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Aldehydes from boranes

The oxazaborolidines are easily prepared by heating ephedrine with borane dimethyl sulfide or the appropriate boronate ester. The aluminum reagent C is obtained by mixing ephedrine and trimethylaluminum. Borolidinc A is superior to its methyl derivative B and to the aluminum analog C. The diastereomeric borolidine obtained from borane and (S,S)-pseu-doephedrine failed to show any cnantioselectivity25. A variety of aromatic aldehydes can be enantioselectively alkylated in the presence of A, however, with heptanal the enantioselectivity is poor25. [Pg.177]

An alternative method of hydroboration is to use diisopinocampheylborane (12) (Scheme 4). This reaction is particularly useful for sterically hindered alkenes. Diisopinocampheylborane (12) is prepared from borane-dimethyl sulfide and (+)-pinene.[23-24] Treatment of 4-meth-ylenecyclohexanone ethylene ketal with diisopinocampheylborane (12) gives the borane 13.[25] Further treatment with 2 equivalents of an aldehyde results in the elimination of pinene and the formation of a new dialkyl boronate, e.g. treatment of 13 with acetaldehyde gives the diethyl cyclohexylmethylboronate 14J261 The dialkyl boronates thus produced can be transesterified with pinanediol to give 15[26] or with other cyclic diols. [Pg.275]

Monocarbaboranes are accessible from boranes and acetylides [Eq. (3.3)], aldehydes, cyanides, or isonitriles (Scheme 3.2)." ... [Pg.112]

The following model (Fig. 26.1) explains the delivery of deuterium for chiral reduction of aldehydes from Alpine-Borane prepared from (+)-a-pinene. [Pg.432]

Reductive Methods.—Aldehydes from Acid Equivalents. In a two-step process which formally constitutes a reduction, carboxylic acids are first reduced to the corresponding alkyl borate ester by the borane-dimethyl sulphide complex, which in turn is oxidized in high overall yield to the aldehyde [equation (1)]. ... [Pg.31]

In 1989 Yamamoto et al. reported that the chiral (acyloxy)borane (CAB) complex 3 is effective in catalyzing the Diels-AIder reaction of a number of a,/ -unsaturated aldehydes [5]. The catalyst was prepared from monoacylated tartaric acid and bo-... [Pg.6]

The yield of 17 is 50 62% in the reactions involving butyl- or. vw-butyllithium due to competitive transfer of the butyl or sec-butyl group. Yields of 17 are improved by using pyridine as the additive, but diastereoselectivity is not as high as when the alkyllithiums are employed. Without any additive, a complex mixture of syn- and anti-diastereomers plus products resulting from addition of the a-carbon of the substrate borane to the aldehyde are obtained. [Pg.325]

Entries 5 to 7 are examples of oxidation of boranes to the carbonyl level. In Entry 5, chromic acid was used to obtain a ketone. Entry 6 shows 5 mol % tetrapropylam-monium perruthenate with Af-methylmorpholine-lV-oxide as the stoichiometric oxidant converting the borane directly to a ketone. Aldehydes were obtained from terminal alkenes using this reagent combination. Pyridinium chlorochromate (Entry 7) can also be used to obtain aldehydes. Entries 8 and 9 illustrate methods for amination of alkenes via boranes. Entries 10 and 11 illustrate the preparation of halides. [Pg.347]

Allylic boranes such as 9-allyl-9-BBN react with aldehydes and ketones to give allylic carbinols. The reaction begins by Lewis acid-base coordination at the carbonyl oxygen, which both increases the electrophilicity of the carbonyl group and weakens the C-B bond to the allyl group. The dipolar adduct then reacts through a cyclic TS. Bond formation takes place at the 7-carbon of the allyl group and the double bond shifts.36 After the reaction is complete, the carbinol product is liberated from the borinate ester by displacement with ethanolamine. Yields for a series of aldehydes and ketones were usually above 90% for 9-allyl-9-BBN. [Pg.797]

P-Allyl-to-(isopinocampheyl)borane exhibits high stereoselectivity in reactions with chiral a-substituted aldehydes.40 The stereoselectivity is reagent controlled, in that there is no change in stereoselectivity between the two enantiomeric boranes in reaction with a chiral aldehyde. Rather, the configuration of the product is determined by the borane. Both enantiomers of (Ipc)2BH are available, so either enantiomer can be prepared from a given aldehyde. [Pg.799]

See other pages where Aldehydes from boranes is mentioned: [Pg.1014]    [Pg.789]    [Pg.1281]    [Pg.117]    [Pg.124]    [Pg.406]    [Pg.1079]    [Pg.1911]    [Pg.1925]    [Pg.292]    [Pg.216]    [Pg.230]    [Pg.25]    [Pg.51]    [Pg.47]    [Pg.67]    [Pg.320]    [Pg.13]    [Pg.29]    [Pg.324]    [Pg.290]    [Pg.301]    [Pg.1031]    [Pg.3]    [Pg.799]   
See also in sourсe #XX -- [ Pg.1423 , Pg.1644 , Pg.1645 ]

See also in sourсe #XX -- [ Pg.477 , Pg.478 , Pg.479 , Pg.480 , Pg.508 ]



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Boranes, acyloxy, from aldehydes

From boranes

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