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Carbon dioxide Cyanogen

The reagent (1) also reacts with wide variety of eiectrophiies, including carbon dioxide, cyanogen, siiyi chiorides, metal halides, and phosphorus(III) chloride With methyl phenyl sulfinate, reaction of (1) leads to the formation of (phenylthio) (trimethylsiloxy)methane, a protected form of formaldehyde, by a sila-Pummerer rearrangement. ... [Pg.668]

CYANOGEN BROMIDE CYANOGEN CHLORIDE CYANOGEN FLUORIDE CARBON MONOXIDE CARBONYL SULFIDE CARBON OXYSELENIDE CARBON DIOXIDE CARBON DISULFIDE CARBON SELENOSULFIDE CYANOGEN... [Pg.203]

Hirshfeld and Mirsky (1979) evaluated the relative contributions to the lattice energy for the crystal structures of acetylene, carbon dioxide, and cyanogen, using theoretical charge distributions. Local charge, dipole and quadrupole moments are used in the evaluation of the electrostatic interactions. When the unit cell dimensions are allowed to vary, inclusion of the electrostatic forces causes an appreciable contraction of the cell. In this study, the contributions of the electrostatic and van der Waals interactions to the lattice energy are found to be of comparable magnitude. [Pg.208]

Cyanogen Trisulphide, (CN)2S3 or (CN)6S .—The non-volatile residue which is formed when silver cyanide acts on sulphur chloride constitutes cyanogen trisulphide. It is a dark yellow crystalline powder, insoluble in water, alcohol, ether, carbon disulphide and chloroform. It is unattacked by hydrochloric acid and is soluble in concentrated sulphuric acid. It is transformed into carbon dioxide and sulphuric acid by nitric acid or aqua regia. When distilled, the products are carbon disulphide, sulphur and tricyanuramide, N8(C3N3)3.1... [Pg.278]

Heated with concentrated sulphuric acid, perthioeyanic acid gives sulphur dioxide, carbon dioxide, thiourea, thiocyanic acid and ammonium sulphate. Heated with chlorine the acid gives cyanogen chloride, sulphur chloride, hydrogen chloride and a reddish-brown insoluble residue. Ferric chloride gives a coloration similar to that produced with thiocyanic acid.10... [Pg.284]

Hydrogen Carbon dioxide Sulfur dioxide Carbon monoxide Nitrous oxide Cyanogen... [Pg.322]

Carbon dioxide, reduction of content of, in preparation of cyanogen, 5 44n. removal of, from commercial carbon monoxide, 6 157ra. Carbon disulfide, compound with tri-n-butylphosphine, 6 90 Carbon monoxide, 2 81 carbon dioxide removal from commercial, 6 157n. [Pg.228]

A preliminary study of other reactions revealed a very great variety in the possibilities of reaction (see especially g i, p. 2273). Molybdenum and carbon monoxide reacted just like tungsten and nitrogen. Many decompositions take place at the surface of heated filaments e.g. tungsten will decompose ammonia, carbon dioxide, and cyanogen. Sometimes the... [Pg.283]

The three species are iso-electronic, the two ions being the analogs of carbon dioxide in the Nitrogen System of Compounds (p. 235). Neither of the ions is stable in acid solution, both being hydrolyzed to CO2 and the ammonium ion. The cyanate ion, however, may persist in moderately basic solutions and, indeed is sometimes prepared by basic hydrolysis of cyanogen by ammonia (in the presence of a metal ion which can remove the cyanide ion, also produced). [Pg.160]

B. Ignite a portion of the sample in air. Carbon monoxide and carbon dioxide are produced, and an ash remains. Cyanogen Compounds Passes test. [Pg.94]

There are many air pollutants, and the composition and level depend on several factors. Air pollutants cause a range of adverse health and environmental effects. These pollutants include ammonia, carbon dioxide, carbon disulfide, carbon monoxide, chlorine, cyanide and cyanide compounds, cyanogen, diborane, fluorine and flourine... [Pg.139]

Hirshfeld, F. L. and Mirsky, K. (1979). The electrostatic term in lattice-energy calculations acetelene, carbon dioxide and cyanogen. Acta Crytallogr A, 35, 366-70. [166]... [Pg.350]

I 3 gm. silver fluoride is powdered in a mortar with 1-5 gm. cyanogen iodide and transferred to a Jena glass tube about 50 cm. long and 2-5 cm. diameter. After evacuating the tube it is sealed off in the blowpipe and then heated in a furnace to 220° C. for 2 hours. After cooling, the tube is immersed in hquid air and the products allowed to condense. The tube is then opened and the contents distilled at — 70° C. in a freezing mixture of acetone and carbon dioxide. Yield 20-25% (Cosslett). [Pg.188]

See other pages where Carbon dioxide Cyanogen is mentioned: [Pg.302]    [Pg.302]    [Pg.283]    [Pg.925]    [Pg.223]    [Pg.37]    [Pg.223]    [Pg.241]    [Pg.266]    [Pg.925]    [Pg.13]    [Pg.295]    [Pg.29]    [Pg.318]    [Pg.186]    [Pg.465]    [Pg.387]    [Pg.104]    [Pg.136]    [Pg.316]    [Pg.398]    [Pg.827]    [Pg.898]    [Pg.1031]    [Pg.372]    [Pg.266]    [Pg.185]    [Pg.31]    [Pg.216]    [Pg.13]    [Pg.295]    [Pg.119]    [Pg.210]    [Pg.453]    [Pg.372]    [Pg.409]    [Pg.495]   
See also in sourсe #XX -- [ Pg.49 , Pg.131 , Pg.152 ]



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Carbon dioxide Cyanogen bromide

Carbon dioxide Cyanogen chloride

Carbon dioxide Cyanogen iodide

Cyanogen

Cyanogene

Cyanogenic

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