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Encyclopedia Britannica - Main :: PIG-POL |
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POLYMETHYLENES , in chemistry, cyclic compounds, the simplest members of which are saturated hydrocarbons of general formula
CH2(CIHI, CH2C.H2 CH2\CIH2CH2, CH2\CH2CH2TCH2,&c. Cyclo-propane, -butane, -pentane, -hexane. The unsaturated members of the series are named on theCH2.CH/ NCH2C(6) I (5) (6) II. (5) As to the stability of these compounds, most trimethylene derivatives are comparatively unstable, the ring being broken fairly readily; the tetramethylene derivatives are rather more stable and the penta- and hexa-methylene compounds are very stable, showing little tendency to form open chain compounds under ordinary conditions (see CHEMISTRY: Organic).Isomerism
isomerism
ordinary position isomerism exists in the di-and poly-substitution compounds. Stereo-isomerism may occur: the simplest examples are the dibasic acids, where a cis-(maleinoid) form and a trans- (fumaroid) form have been observed. These isomers may frequently be distinguished by the facts that the cis-acids yield anhydrides more readily than the trans-acids, and are generally converted into the trans-acids on heating
X X (cis), X x (trans), x X (I). The trans compound is perfectly asymmetric and so its mirror image (I) should exist, and, as all the trans compounds synthetically prepared are optically inactive, they are presumably racemic compounds (see O. Aschan, Chemie der alicyklischen Verbindungen, p. 346 seq.).General Methods of Formation. Hydrocarbons nay be obtained from the dihalogen paraffins by the action of sodium or zinc dust, provided that the halogen atoms are not attached to the same or to adjacent carbon atoms (A. Freund, Monats., 1882, 3, p. 625; W. H. Perkin, jun., Journ. Chem. Soc., 1888, 53, p. 213): CH2CH2 Br+zNa=zNaBr+ CH2CH2; by the action of hydriodic acid and phosphorus or of phosphonium iodide on benzene hydrocarbons (F. Wreden, Ann., 1877, 187, p. 153; A. v. Baeyer, ibid., 1870, 1S5, p. 266), benzene giving methylpentamethylene; by passing the vapour of benzene hydrocarbons over finely divided nickel at 18o-25o C. (P. Sabatier and J. B. Senderens, Comptes rendus, 1901, 132, p. 210 seq.); and from hydrazines of the type CH2_1NHNH2 by oxidation with alkaline potassium ferricyanide (N. Kijner, Journ. prak. Chem., 1901, 64, p. 113). Unsaturated hydro-carbons of the series may be prepared from the corresponding alcohols by the elimination of a molecule of water, using either the xanthogenic ester method of L. Tschugaeff (Ber. 1899, 32, p 3332): CH2,,_,ONa-)G,H2_10-CSSNa(R) -G,H2,,_2+COS+RSH; or simply by dehydrating with anhydrous oxalic acid (N. Zelinsky, Ber., 1901, 34, p 3249); and by eliminating the halogen acid from mono- or di-halogen polymethylene compounds by heating
quinoline
Alcohols are obtained from the corresponding halogen compounds by the action of moist silver oxide
Geneva system in which the termination -ane is replaced by-ene, -diene, -triene, according to the number of double
double
(2) (3) (2) (3) (I)CH3.C~ CHCH \ CH(4)(t)H02CCH/C(COzH):CH\CH(4) sodium and alcohol (L. Bouveault and G. Blanc, Corn pies rendus, 1903, 136, p. 1676; 137, p. 6o); and by the addition of the elements of water to the unsaturated cyclic hydrocarbons on boiling with dilute acids. Aldehydes and Ketones.The aldehydes are prepared in the usual manner from primary alcohols and acids. The ketones are obtained by the dry distillation
CH2CH2CH2CO2R CH2.CH2CH . CH2CH,CO2R ~CH2CH2C02 by the action of sodium ethylate on 3-ketonic acids (D. Vor- lander, Bet., 1895, z8, p. 2348) CCH2CH2\CO2H-> CH CH2CH2 CH,( \CO; \COCH3 COCH2 from sodio-malonic ester and ai3-unsaturated ketones or ketonic esters: (R02C)2CH2+PhCH:CHCOCH3->PhCH from aceto-acetic ester and esters of a/3-unsaturated acids, followed by elimination of the carboxyl group: CH,CR'2 CH3COCH2CO2R+R'2C:CHCO2R->CO/ CHCO2R; \CH2CO by the condensation of two molecules of aceto-acetic ester with aldehydes followed by saponification (E. Knoevenagel, Ann., 1894, 28,, p. 25; 1896, 288, p. 321; Ber., 1904, 37, p. 4461): 2CH3COCH2CO2R+OHC.R'-->CH3C/CH2CHR'\CH2; "CH.CO from I.5-diketones which contain a methyl group next the keto-group (W. Kerp, Ann., 1896, 290, p. 123): CH2C(CH3) 3CH3COCH3->(CHa)2C< %CH; End of Article: POLYMETHYLENES If you wish, you can link directly to this article.
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