Acetophenone: acylation oxidation

Besides acetophenone, this reaction was also applied to p-chloro- andp-methoxyacetophenone, and even to an aliphatic ketone, acetone (although the yield was stated to be only half as large as that obtained from mesityl oxide, i.e., less than 30%, Dorofeenko and co-workers reported a 45% yield of 2,4,6-trimethylpyrylium perchlorate from acetone, acetic anhydride, and perchloric acid), and is the standard method for preparing pyrylium salts with identical substituents in positions 2 and 4. The acylating agent may be an anhydride in the presence of anhydrous or hydrated ferric chloride, or of boron fluoride, or the acid chloride with ferric chloride.Schneider and co-workers ... 

Another recent patent (22) and related patent application (31) cover incorporation and use of many active metals into Si-TUD-1. Some active materials were incorporated simultaneously (e.g., NiW, NiMo, and Ga/Zn/Sn). The various catalysts have been used for many organic reactions [TUD-1 variants are shown in brackets] Alkylation of naphthalene with 1-hexadecene [Al-Si] Friedel-Crafts benzylation of benzene [Fe-Si, Ga-Si, Sn-Si and Ti-Si, see apphcation 2 above] oligomerization of 1-decene [Al-Si] selective oxidation of ethylbenzene to acetophenone [Cr-Si, Mo-Si] and selective oxidation of cyclohexanol to cyclohexanone [Mo-Si], A dehydrogenation process (32) has been described using an immobilized pincer catalyst on a TUD-1 substrate. Previously these catalysts were homogeneous, which often caused problems in separation and recycle. Several other reactions were described, including acylation, hydrogenation, and ammoxidation. 

In the original patent published by Merck in 1995, rofecoxib (2) was synthesized in three steps from the known 4-(methylthio)acetophenone (10), prepared from the Friedel-Crafts acylation of thioanisole. As depicted in Scheme 2, oxidation of sulfide 10 using an excess of magnesium monoperoxyphthalate hexahydrate (MMPP, an inexpensive, safe and commercially available surrogate for w-CPBA) gave rise to sulfone 11, which was subsequently brominated with bromine and AICI3 to afford 2-bromo-l-(4-(methylsulfonyl)phenyl)ethanone (12). After recrystallization from 1 1 EtOAc/hexane, the pure phenylacyl bromide 12 was then cyclo-condensed with phenylacetic acid under the influence of l,8-diazabicyclo[5.4.0]undec-7-ene (DBU) to deliver rofecoxib (2) in... 

The synthesis of rofecoxib can be achieved by several different routes (Drugs Fut., 1998). A highly efficient synthesis for rofecoxib was recently described (Therien et al., 2001). As illustrated in Scheme 79, acetophenon (i) is prepared according to the literature, by Friedel-Crafts acylation with thioanisole. Oxidation with MMPP (magnesium monoperoxyphthalate hexahydrate) affords the sulfone (ii), which is reacted with bromine in chloroform in the presence of a trace amount of AICI3, to give (iii). Bromoketone (iii) is than coupled and cyclized in a second step, one-pot procedure with phenylacetic acid. Firstly, the mixture of bromoacetophenone (iii) and phenylacetic acid in acetonitrile is treated with... 

Alkyl ethers of benzoin Benzil dimethyl ketal 2-Hydroxy-2-methylphenol-l-propanone 2,2-Diethoxyacetophenone 2-Benzyl-2-At, V-dimethylamino- l-(4-morpholinophenyl) butanone Halogenated acetophenone derivatives Sulfonyl chlorides of aromatic compounds Acylphosphine oxides and bis-acyl phosphine oxides Benzimidazoles... 

The most useful procedure utilises a 1,4-keto-ester giving a dihydro-pyridazinone, which can be easily dehydrogenated to the fully aromatic heterocycle, often by C-bromination then dehydrobromination alternatively, simple air oxidation can often suffice. 6-Aryl-pyridazin-3-ones have been produced by this route in a number of ways using an a-amino nitrile as a masked ketone in the four-carbon component, or by reaction of an acetophenone with glyoxylic acid and then hydrazine. Friedel-Crafts acylation using succinic anhydride is an alternative route to 1,4-keto-acids, reaction with hydrazine giving 6-aryl-pyridazinones. Alkylation of an enamine with a phenacyl bromide prodnces 1-aryl-l,4-diketones, allowing synthesis of 3-aryl-pyridazines. ... 

Mit dem Nishimura-Katalysator, einem nach Art des Adams-Katalysators hergestellten Rhodium-Platin-Oxid, werden Acyl-aromaten zu (1-Hydroxy-alkyl)-cyclohexa-nen reduziert. Aus Acetophenon wird so 1 -Cyclohexyl-dthanol erhalten. 

In this reaction, initially, acetophenone 36 was converted to a-iodo acetophenone 39 by iodine, which was further transformed into phenyl glyoxal 40 by DMSO (dimethyl sulfoxide). The formed aldehyde then reacted with 2-aminothiophenol 37 to provide intermediate 41, which was further converted to 42 through an intramolecular 1,2-addition. Then, 42 underwent iodine-catalyzed oxidative dehydrogenation to afford the desired product 2-acyl benzothiazole 38 (Scheme 9.9). Very recently, the same authors reported the synthesis of 2,5-disubstituted oxazoles using a similar domino process [17]. 

A radical process was proposed for this transformation. Firsdy, a radical species could be generated through the reaction of acetophenone with terf-butyloxy radical and I2. Then the radical species 12 reacts with water and is subsequently oxidized to 2-oxo-2-arylacetaldehyde 14. Ddecarbonylation of this intermediate could form the desired acyl radical 16. Finally, the formed acyl radical 17 is further oxidized to give the desired benzamide derivatives in ammonia solution (Scheme 3.5). 

---