Carbo-reduction

With Ta as the reductant, the actinide starting material may instead be the carbide, previously prepared by the carbo-reduction of the oxide. This process is an attractive alternative for producing Pu and Cm because in the preparation of the carbide from the oxide a large number of impurities are eliminated by vaporization. Table 19.4 presents a brief summary of commonly used preparation methods. 

M Yoshida, M Nishioka, S Somiya. Rapid preparation of titanium and other transition-metal nitride and carbide powders by a carbo-reduction method using arc-image heating. In Ref. 8, p 406. 

K Oh-ishi, et al. The carbo reductive reaction for the improvement of the thermal conductivity of AIN ceramics. Proceedings of the International Symposium on Aluminum Nitride Ceramics, Tokyo, 1998. 

Chapters 9, 10 and 11 describe methods for substitution directly on the ring with successive attention to Nl, C2 and C3. Chapters 12 and 13 are devoted to substituent modification as C3. Chapter 12 is a general discussion of these methods, while Chapter 13 covers the important special cases of the synthesis of 2-aminoethyl (tryptaminc) and 2-aminopropanoic acid (tryptophan) side-chains. Chapter 14 deals with methods for effecting carbo cyclic substitution. Chapter 15 describes synthetically important oxidation and reduction reactions which are characteristic of indoles. Chapter 16 illustrates methods for elaboration of indoles via cycloaddition reactions. 

The reduction of 2-methyl-1,2,3,4-tetrahydro-y-carboline (92) with zinc and hydrochloric acid in the presence of mercuric chloride gives the indolenine derivative, 2-methyl-l,2,3,4,4a,9b-hexahydro-y-carbo-line (93). A related compound, 4,9b-diethyl-2-methyl-l,2,3,4,4a,9b-hexahydro-y-carboline (96), was obtained by catalytic hydrogenation of 95, which was prepared by Fischer ring closure of the phenyl-hydrazone 94. The stereochemistry of the B/C ring junction in these... 

Condensation of adipic acid derivative 17 with phenylethylamine in the presence of carbo-nyldiimidazole affords the bis-adipic acid amide 18. The synthesis is completed by reduction of the carbonyl groups with diborane followed by demethylation of the aromatic methoxy groups with hydrogen bromide the afford dopexamine (19) [3]. 

This is the strategy of the manufacture of carbo-Jjran, though the mono alkylation of (28) is avoided by -sing available (29) and converting the NOg to OH by reduction and substitution. The acidic nitrophenol (30) rycllses on heating. 

It should be remarked here that trimethylsilane 84 a or triethylsilane 84 b and most other known silanes, for example tetramethyldisiloxane 1788, are quite expensive for any large-scale reduction, whereas the subsequently described poly-methylhydrosiloxane 1856 (cf. reductions of an azide moiety in 1855 and a carbo-benzoxy moiety in 1859) is available as large-scale orders for ca 15 kg , which is only a fraction of the cost of any other silane. 

The carbo-thermic process is also used it is a two-stage reduction (at 1950°C) according to the reactions ... 

Application of carbo-thermal reduction. This is a synthesis process for the preparation of powders of carbides, nitrides and borides. Carbon may be graphite, coke, pyrolysed organic polymers. A reference process may be the Acheson process for the production of SiC ... 

Nucleophilic additions to (cyclohexadienone)Fe(CO)3 complexes (218) occur in a dia-stereospecific fashion (Scheme 56)197. For example, the Reformatsky reaction of ketone (218a) affords a simple diasteromeric alcohol product19715. The reduction of (1-carbo-methoxycyclohexa-l,3-dien-5-one)Fe(CO)3 (218b) to give 219 has been utilized in the enantioselective synthesis of methyl shikimate. In a similar fashion, cycloadditions of (2-methoxy-5-methylenecyclohexa-l,3-diene)Fe(CO)3 (220) occur in a diastereospecific fashion198. 

Benzenecarhodithioesters and carbo-thio-S-esters were shown to yield diphenylacetylene by the cathodic reduction in aprotic media. Thus, the formation of diphenylacetylene involves [202] two molecules of a substrate. The cathodic reactivity of thioamides involving a similar alkylation of the C=S group in the presence of primary alkyl halides was reviewed [199-201]. 

RCM of dienes to cycloalkenes provides a useful method for the syntheses of carbo- and heterocycles and thus has been proved to be extremely effective in total synthesis of various natural products. Usually, however, mixtures of (E)- and (Z)-olefms result. In contrast, ring-closing alkyne metathesis provides a reliable route for synthesis of both (E)- and (Z)-macrocycloalkenes in a stereoslective manner taking advantage of stereoselective partial reduction of resulting cycloalkynes. A Lindlar reduction gives (Z)-cycloalkenes, whereas a hydroboration/ protonation sequence afford ( )-cycloalkenes (Equation (23)). Recently, Trost reported an alternative procedure for the synthesis of (E)-olefins from alkynes through hydrosilylation by a ruthenium catalyst. This procedure converts cycloalkyne 130, for example, to vinylsilane 131 and then to (E)-cycloalkene 132 in a stereoselective manner (Scheme 46)7 ... 

Domenech A, Domenech-Carbo MT (2008) In situ AFM study of proton-assisted electrochemical oxidation/reduction of microparticles of organic dyes. Electrochem Com-mun 10 1238-1241. 

As a further illustration of the reactivity of the 3 position toward electrophiles, the methoxyindole (25-1) readily undergoes Mannich reaction with formaldehyde and dimethylamine to afford the aminomethylated derivative (25-2). Treatment of that intermediate with potassium cyanide leads to the displacement of dimethylamine and the formation of the nitrile (25-3), possibly by an elimination-addition sequence involving a 3-exomethylene-indolenine intermediate. The protons on the methylene group adjacent to the nitrile are quite acidic and readily removed. Reaction of (25-3) with methyl carbonate in the presence of sodium methoxide gives the carbo-methoxylated derivative (25-4). Catalytic hydrogenation leads to reduction of the nitrile to a primary amine. There is thus obtained the antihypertensive agent indorenate (25-5) [26]. 

The first reaction provides a route for the reduction of alkyl halides since the carbo-cation (isopropyl, in Rl) may be prepared from action of AICI3 on the corresponding alkyl halide. Reactions of the type Rl are also important in the process, catalytic cracking, in the manufacture of gasoline. They have also been studied in mass spectro-metric experiments [235]. Reaction R2 is one route to the preparation of carbocations under stable ion conditions. Reaction R3 is employed in the laboratory synthesis of the tropylium cation. Reaction R4, the (crossed) Cannizzaro reaction, is unusual in that it takes place under strongly basic conditions. The oxy dianion is an intermediate in the reaction of concentrated hydroxide with the aldehyde, R HO. None of R1, R2, or R3 may have hydrogen atoms a to the carbonyl groups. Formaldehyde (R1 = H) is readily... 

The energy equivalent of red light is about 190 kJ (45 kcal) mol-1, but flte actual energy requirement for the reduction of 1 mole of COz to carbo- tydrateis 470 kJ 112 kcal) mol-1. This shows that the mechanism of... 

The synthesis of 207 is based on an intramolecular aminolysis of the (3-lactam ring in 206. This latter compound was prepared by stereoselective alkylation of 203 with l-bromo-3-butene and subsequent oxidative cleavage of the double bond to give the carboxylic acid 204, which next was coupled with 205. The resulting peptide product 206 rapidly cyclized to a ten-membered ring compound, on reductive deprotection of the hydrazine group, and then coupled with /V-carbo-benzoxytyrosine to give 207. 

Akhlaq MS, Al-Baghdadi S, von Sonntag C (1987) On the attack of hydroxyl radicals on polyhydric alcohols and sugars and the reduction of the so formed radicals by 1,4-dithiothreitol. Carbo-hydr Res 164 71-83... 

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