1.3- diketonates nitration

Step 2 Oxidation of the metal complex containing gels at high temperatures in air to remove all organic components. The initially employed metal salts have to contain counter-ions (e.g., carboxylates, fi-diketonates, nitrate) that can also be revoved during this step. The composites M0z/Si02 are formed. 

Oxidation of benzoin with concentrated nitric acid or by catalytic amounts of cupric salts in acetic acid solution, which are regenerated continuously by ammonium nitrate, yields the diketone benzil ... 

Silyi enol ethers can be dimerized to symmetrical 1,4-diketones by treatment with Ag20 in DMSO or certain other polar aprotic solvents." The reaction has been performed with R , R = hydrogen or alkyl, though best yields are obtained when r = r = H. In certain cases, unsymmetrical 1,4-diketones have been prepared by using a mixture of two silyi enol ethers. Other reagents that have been used to achieve either symmetrical or cross-coupled products are iodosobenzene-Bp3-Et20," ceric ammonium nitrate," and lead tetraacetate." If R =0R (in which case the substrate is a ketene silyi acetal), dimerization with TiCU leads to a dialkyl succinate (34, r =0R)." ... 

The photochemical cyclisation of p.y-unsaturated ketoximes to 2-isoxazolines, e.g., 16—>17, has been reported <95RTC514>. 2-Isoxazolines are obtained from alkenes and primary nitroalkanes in the presence of ammonium cerium nitrate and formic acid <95MI399>. Treatment of certain 1,3-diketones with a nitrating mixture generates acyl nitrile oxides, which can be trapped in situ as dipolar cycloadducts (see Scheme 3) <96SC3401>. 

Symmetrical and unsymmetrical benzoins have been rapidly oxidized to benzils in high yields using solid reagent systems, copper(II) sulfate-alumina [105] or Oxone-wet alumina [105, 106] under the influence of microwaves (Scheme 6.32). Conventionally, the oxidative transformation of a-hydroxy ketones to 1,2-diketones is accomplished by reagents such as nitric acid, Fehling s solution, thallium(III) nitrate (TTN), ytterbium(III) nitrate, ammonium chlorochromate-alumina and dayfen. In addition to the extended reaction time, most of these processes suffer from drawbacks such as the use of corrosive acids and toxic metals that generate undesirable waste products. 

Electrophilic nitrations of aliphatic nitriles, carboxylic acids,carboxylic esters, ° and /3-diketones have been reported. The nitration of 2-alkyl-substituted indane-l,3-diones with nitric acid, followed by alkaline hydrolysis, is a standard laboratory route to primary nitroalkanes. ... 

Dave and co-workers have reported a successful synthesis of 2,2,4,4-tetranitroadamantane (117) which uses the mono-protected diketone (113) as a key intermediate. In this synthesis (113) is converted to the oxime (114) and then treated with ammonium nitrate and nitric acid in methylene chloride to yield the em-dinitro derivative (115). This nitration-oxidation step also removes the acetal-protecting group to leave the second ketone group free. Formation of the oxime (116) from ketone (115), followed by a similar nitration-oxidation with nitric acid and ammonium nitrate, yields 2,2,4,4-tetranitroadamantane (117). In this synthesis the protection strategy enables each carbonyl group to be treated separately and thus prevents the problem of internal nitroso dimer formation. 

Olah and co-workers reported the synthesis of 3,3,7,7-tetranitro-cw-bicyclo[3.3.0]octane (139) from the diketone (137).Inthis synthesis treatment of the dioxime of (137) with abuffered solution of peroxytrifluoroacetic acid gives 3,7-dinitro-cw-bicyclo[3.3.0]octane (138), which on oxidative nitration yields (139) in 76 % yield. 

The volatile metal-containing precursors which satisfy the ALD criteria fall into four main categories (i) halides, (ii) y0-diketonate complexes, (iii) alkoxides, and (iv) true organometallics, viz. metal alkyls and cyclopentadienyl-type compounds (Fig. 3). Also amido complexes have recently gained attention as possible ALD precursors. Occasionally other compounds have been used as ALD precursors for thin films, for instance, metal nitrates, carboxy-lates and isocyanates [17,18]. 

Pyranone 127 reacts with alkenes in the presence of cerium ammonium nitrate via a cyclization reaction that leads to the formation of furo[2,3-3]- and furo[3,2-f]-pyranones in moderate yields (Equation 60). This reaction can be extended to the synthesis of furoquinolinones <1999H(51)2881>. Dihydropyran 128, with either / -diketones or /3-keto esters, undergoes cycloaddition reactions promoted by ceric ammonium nitrate to generate furo[2,3-3]pyrans in good yields (Equation 61) <1996T12495>. 

Reactions of Nondonor Chelate Ring Member in the Intact Ring. In some cases, chelate ring members will react without impairment of the stability of the complex. The most studied example involves substitution at the central carbon atom in / -diketone complexes (16-19, 21, 45, 64). This is illustrated with the bromination reaction in Equation 26. Acylation, formylation, and nitration reactions have also been carried out. 

Reaction of the trifluoromethyl substituted /3-diketone 158 with 154 nitrate gave a mixture of the triazolopyrimidine 160 and the pyrimidine 162 whereas reaction with the aromatic /3-diketones (159) gave a mixture of triazolopyrimidines (161) and pyrimidines (163) (79CZ267 80AP244) (Scheme 30). 

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