ALDEHYDES FROM PRIMARY ALCOHOLS BY OXIDATION WITH

ALDEHYDES FROM PRIMARY ALCOHOLS BY OXIDATION WITH CHROMIUM TRIOXIDE 1-HEPTANAL, 52, 5 ALDEHYDES FROM sym-TRITHIANE n-PENTADECANAL, 51, 39 Aldehydes, acetylenic, 54, 45 Aldehydes, aromatic, 54, 45 Aldehydes, benzyl, 54, 45 Aldehydes, olefinic, 54, 45... 

ALDEHYDES FROM PRIMARY ALCOHOLS BY OXIDATION WITH CHROMIUM TRIOXIDE 1-HEPTANAL... 

Aldehydes, RCHO (Sec. 7.9) (Sec. 7.9) (Sec. 8.4) (Sec. 17.7, 19.2) (Sec. 19.2, 21.6) from disubstituted alkenes by ozonolysis from 1,2-diols by cleavage with sodium periodate from terminal alkynes by hydroboration followed by oxidation from primary alcohols by oxidation from esters by reduction with DIB AH [HA1(i-Bu)2]... 

Jones s oxidation is a powerful oxidizing medium for the conversion of alcohols to ketones. Unfortunately, this is such a powerful oxidizing medium that unwanted products are possible due to overoxidation. When a primary alcohol such as 1-pentanol (15) reacts with chromium trioxide and aqueous sulfuric acid, it follows the same mechanistic pathway as 9, with formation of chromate ester 16. However, experiments show that the yields of aldehyde from primary alcohols can be very low. 1-Propanol is oxidized to propanal, for example, in only 49% yield, and to obtain the product requires a short reaction time. Very often, a carboxylic acid is formed as a second product or even the major oxidation product rather than the aldehyde. It is known that aldehydes are easily oxidized to carboxyhc acids, even by oxygen in the air. If a sample of butanal were spilled, for example, it is rapidly oxidized to butanoic acid by air. This oxidation is easily detected as the sharp butanal smell is replaced by the pungent butanoic acid smell. Butanoic acid is found in rancid butter and in dirty feet, for example. 

Aldatic acid (Section 22.4) A diacid derived from an aldohexose by oxidation with nitric acid. It has the overall structure HOOC—(CH0H)4—COOH. In an aldaric acid, the old aldehyde and primary alcohol ends of the sugar have become identical. 

Palladium nanoparticles stabilized with an amphiphilic resin catalyze the oxidation of alcohols by molecular oxygen in water. The corresponding products, aldehydes from primary alcohols and ketones from secondary alcohols, were... 

The Dess-Martin periodinane ( DMP ) reagent, U,l-tris(acetyloxy)-l,l-dihydro-l,2-benziodoxol-3(l//)-one, has also been used in several complex syntheses for the oxidation of primary or secondary alcohols to aldehydes or ketones, respectively (e.g., M. Nakatsuka, 1990). It is prepared from 2-iodobenzoic add by oxidation with bromic add and acetylation (D.a Dess, 1983). 

The strategy for the construction of 13 from aldehyde 16 with two units of phosphonate 15 is summarized in Scheme 12. As expected, aldehyde 16 condenses smoothly with the anion derived from 15 to give, as the major product, the corresponding E,E,E-tri-ene ester. Reduction of the latter substance to the corresponding primary alcohol with Dibal-H, followed by oxidation with MnC>2, then furnishes aldehyde 60 in 86 % overall yield. Reiteration of this tactic and a simple deprotection step completes the synthesis of the desired intermediate 13 in good overall yield and with excellent stereoselectivity. 

A number of oxidants are able to selectively transform silyl ethers derived from primary alcohols into aldehydes in the presence of silyl ethers derived from secondary alcohols. This allows to perform selective oxidations, whereby persilylation of polyols is followed by the selective oxidation of primary silyl ethers, resulting in the formation of aldehydes possessing secondary alcohols protected as silyl ethers. As expected, the mild transformation of primary silyl ethers into aldehydes is only possible with silyl ethers that are not exceedingly robust, such as TMS, TES and TBS ethers. 

The periodinane (10) may also be prepared from o-iodobenzoic acid by oxidation with potassium bromate and then treatment with acetic anhydride18 (see Expt 6.36 for detailed formulation). It should be noted that the organic derivatives of pentacoordinate iodine(v) are termed periodinanes.18b This compound (the systematic name is l,l,l-triacetoxy-2,l-benzoxiodol-3(3//)-one) has found use as an oxidant of primary alcohols to aldehydes and alicyclic ketones to secondary alcohols it is claimed to have advantages over the chromium-based oxidation reagents. 

Primary and secondary allylic alcohols and saturated secondary alcohols are oxidized to the corresponding carbonyl compounds quickly and in high yield at room temperature in DMF. There is no appreciable overoxidation of allylic alcohols in DMF, but primary saturated alcohols are readily oxidized to their corresponding acids. Recently, it has been reported that aldehydes may be converted to methyl esters by oxidation with PDC in the presence of methanol. Preparation of other esters, or methyl esters direct from the alcohol, proved to be less efficient. 

The primary alcohol 221 was oxidized to aldehyde 222 by chromium trioxide in pyridine in 85% yield. The alcohol 223 was obtained from compound 222 by treatment with Grignard reagent (225). The bromo compound (224) required for preparation of the Grignard reagent was prepared as outlined above in overall low yield. 

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