Nickel reduction with

The oxidized solution pH is adjusted to 2.5 with sulfuric acid. The nickel ammonium sulfate double salt is precipitated, filtered, dissolved in aqueous ammonia solution, and returned to the main leach circuit. The filtrate is evaporated to increase ammonium sulfate and cobalt concentration, and H2SO4 is added to remove the residual nickel. The filter residue is returned to the oxidation feed tanks. Cobalt powder is added to the pure cobalt solution to convert the cobaltic to cobaltous, in a process similar to the nickel reduction with hydrogen gas. 

Piperitone is of considerable technical im portance. It is a colourless oil of a pleasant peppermint-like smell. (-)-Piperilone has b.p. 109-5-110-5 C/I5mm. Piperitone yields thymol on oxidation with FeCl. On reduction with hydrogen in presence of a nickel catalyst it yields menthone. On reduction with sodium in alcoholic solution all forms of piperitone yield racemic menthols and womenthols together with some racemic a-phel)andrene. 

The Gassman synthesis has been a particularly useful method for the synthesis of oxindolcs[lb,8]. Use of methylthioacetate esters in the reactions leads to 3-(methylthio)oxindoles which can be desulfurized with Raney nickel. Desulfurization can also be done by reduction with zinc or tin[10,ll]. 

The nickel sulfide is refined by conversion to a sulfate solution and reduction with hydrogen to produce a high purity nickel powder. 

Reduction. Quinoline may be reduced rather selectively, depending on the reaction conditions. Raney nickel at 70—100°C and 6—7 MPa (60—70 atm) results in a 70% yield of 1,2,3,4-tetrahydroquinoline (32). Temperatures of 210—270°C produce only a slightly lower yield of decahydroquinoline [2051-28-7]. Catalytic reduction with platinum oxide in strongly acidic solution at ambient temperature and moderate pressure also gives a 70% yield of 5,6,7,8-tetrahydroquinoline [10500-57-9] (33). Further reduction of this material with sodium—ethanol produces 90% of /ra/ j -decahydroquinoline [767-92-0] (34). Reductions of the quinoline heterocycHc ring accompanied by alkylation have been reported (35). Yields vary widely sodium borohydride—acetic acid gives 17% of l,2,3,4-tetrahydro-l-(trifluoromethyl)quinoline [57928-03-7] and 79% of 1,2,3,4-tetrahydro-l-isopropylquinoline [21863-25-2]. This latter compound is obtained in the presence of acetone the use of cyanoborohydride reduces the pyridine ring without alkylation. 

The use of primary amines instead of ammonia affords l,2-dialkyl-/l -pyrrolines or l,2-dialkyl-/l -piperideines. Amino ketones with a primary amino group are intermediates in the reduction of y-nitropropylalkyl ketones (14,15) or S-nitrobutylalkyl ketones (16-18) by catalytic hydrogenation over Raney nickel or with zinc and hydrochloric acid (Scheme 1). 

ANILINES, BENZYL AMINES, AND ANALOGUES An orally active local anesthetic agent that can be used as an (intiarrhythmic agent is meobenti ne (57). Its patented synthesis starts with -hydroxyphenyl nitrile and proceeds by dimethyl sulfate etherification and Raney nickel reduction to Alkylation of -methyl-dimethylthiourea with completes l.he synthesis of meobenti ne (57). ... 

Hydrogenolysis of cxo-2-phenyl-9-oxabicyclo[3.3, l]nonan-2-ol proceeds exclusively with retention over Raney nickel and with inversion over palladium. No reduction with palladium occurred at all until a drop of perchloric acid was added (36). 

From 13.1 g of N-preduction with Raney-nickel and hydrogen, in which reaction the substance may be suspended in methanol or dissolved in methanol-ethyl acetate at normal pressure and at about 40°C with combination of the theoretical quantity of hydrogen, 12.2 g are obtained of o-emino-N-pfrom aqueous methanol hasaMPof90°C. 

Nickel can also be deposited by reduction with the aid of boranates such as sodium boranate (NaBH4) or A-diethyl borazane, i.e. (C2Hj)2NH-BH3, the basic reaction proceeding as follows ... 

Sometimes the metal may be transformed into a different oxidation state thus copper(II) may be reduced in acid solution by hydroxylamine or ascorbic acid. After rendering ammoniacal, nickel or cobalt can be titrated using, for example, murexide as indicator without interference from the copper, which is now present as Cu(I). Iron(III) can often be similarly masked by reduction with ascorbic acid. 

Partial reduction of the acetylenes 1 over 10 % palladium on barium sulfate yields the ra-alkenes 2 which ring close spontaneously to the 3//-2-benzazepines 3.78 Reduction with Raney nickel is less successful and produces mixtures of the 3-benzazepines and their 4,5-dihydro derivatives. 

All tests reported here were performed with a special methanation catalyst developed by BASF, Ludwigshafen, for the process. The catalyst had a relatively high nickel content on a carrier. It was charged to reactors D2 and D3 in unreduced form and had to be activated by reduction with hydrogen. 

Enzymic syntheses are considered next. Xylitol is a substrate for sheep-liver L-iditol dehydrogenase, a NAD-linked enzyme. 1-Deoxy-D-xylitol, prepared by Raney nickel reduction of D-xylose diethyl dithioacetal in a 27% overall yield from D-xylose, was also reported31 to be a substrate, although with a higher Km and lower Vmax. The product was assumed to be l-deoxy-D-f/ireo-pentulose because of the appearance of a yellowish fluorescent spot when a chromatogram was sprayed with acidic 3,5-aminobenzoic acid, resembling that formed from 1 -deoxyfructose. There was no more-rigorous characterization. 

Nitro compounds can be further reduced to hydrazo compounds with zinc and sodium hydroxide, with hydrazine hydrate and Raney nickel,or with LiAlH4 mixed with a metal chloride such as TiCU or VCl3. The reduction has also been accomplished electrochemically. 

This paper describes the catalytic activity of nickel phosphide supported on silica, alumina, and carbon-coated alumina in the hydrodesulfurization of 4,6-dimethyldibenzothiophene. The catalysts are made by the reduction of phosphate precursors. On the silica support the phosphate is reduced easily to form nickel phosphide with hi catalytic activity, but on the alumina support interactions between the phosphate and the alumina hinder the reduction. The addition of a carbon overlayer on alumina decreases the interactions and leads to the formation of an active phosphide phase. 

The liquid-phase reduction method was applied to the preparation of the supported catalyst [27]. Virtually, Muramatsu et al. reported the controlled formation of ultrafine Ni particles on hematite particles with different shapes. The Ni particles were selectively deposited on these hematite particles by the liquid-phase reduction with NaBFl4. For the concrete manner, see the following process. Nickel acetylacetonate (Ni(AA)2) and zinc acetylacetonate (Zn(AA)2) were codissolved in 40 ml of 2-propanol with a Zn/Ni ratio of 0-1.0, where the concentration of Ni was 5.0 X lO mol/dm. 0.125 g of Ti02... 

It is interesting to note that some 1,5-benzodiazepines such as 29 also possess CNS depressant activity. Treatment of substituted diphenylamine 26 with methyl malonyl chloride and reduction with Raney nickel led to orthophenylenediamine analogue 27. Sodium alkoxide treatment led to lactam formation (28), and alkylation in the usual way with NaH and methyl iodide produced clobazam (29). °... 

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