四乙基铵和铵盐在甲醇中的电导率

A. Unmack, E. Bullock, Dave Murray-Rust, H. Hartley
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引用次数: 5

摘要

如果电解离子在电场中的运动遵循斯托克斯定律,且其有效半径在不同溶剂中保持不变,则其速度应与溶剂粘度成反比,即l 0 X η =常数。瓦尔登定律的研究表明,这种关系,即瓦尔登定律,只适用于某些大的有机离子,因此可以假定这些离子是未溶化的。NE - 4 +离子在这方面特别令人感兴趣,因为瓦尔登已经在许多溶剂中研究了它的盐;他已经证明苦口酸四乙基铵在不同溶剂和不同温度范围内的a0 X η量近似恒定。由于缺乏输运数数据,只能直接知道NE - 4 +离子在水、甲醇和乙醇中的迁移率。它在这些溶剂中的值具有相当大的实际重要性,因为Ulich已经使用产物的平均值l 0 X η来计算离子在其他溶剂中的迁移率,这些溶剂目前没有迁移数,而且在稀溶液中很难测量。四乙基铵离子在甲醇中的迁移率的值,除了早期用碘化物进行的一些测量外,完全是基于用苦味酸盐进行的测量。本研究的主要目的是测量一些四乙基铵盐在甲醇中的电导率,以获得其流动性的确证证据。此外,还测定了一些铵盐的电导率,以比较简单铵离子和四取代铵离子的迁移率。值得注意的是,尽管NE - 4 +离子(l0 = 62)很复杂,但它的移动速度比NH4 +离子(l0 = 58)快,并且在甲醇中的迁移率比除c - sium (l0 = 62·3)和氢(l0 = 142)以外的任何阳离子都高,正如对称的clo4 -离子比简单的氯离子快一样。
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The conductivities of tetraethylammonium and ammonium salts in methyl alcohol
If the motion of an electrolytic ion in an electric field obeys Stokes’s law and its effective radius remains unchanged in different solvents, then its velocity should be inversely proportional to the viscosity of the solvent, i. e ., l 0 X η = constant. The investigations of Walden have shown that this relationship, known as Walden’s rule, only holds good for certain large organic ions which therefore are presumed to be unsolvated. The NE t 4 + ion is of particular interest in this respect, since its salts have been studied by Walden in a number of solvents ; he has shown that the quantity A 0 X η is approximately constant for tetraethylammonium picrate both in different solvents and over a range of temperature in each. Owing to the lack of transport number data, the mobility of the NE t 4 + ion is only known directly in water, methyl alcohol and ethyl alcohol. Its value in these solvents is of considerable practical importance, since Ulich has used the average value of the product l 0 X η to calculate ionic mobilities in other solvents in which no transport numbers are at present available and in which they would be extremely difficult to measure in dilute solution. The value of the mobility of the tetraethylammonium ion in methyl alcohol is based solely on measurements with the picrate, apart from some early measurements with the iodide. The primary object of the present investigation was to measure the conductivity of a number of tetraethylammonium salts in methyl alcohol in order to obtain confirmatory evidence of its mobility. In addition, the conductivities of some ammonium salts have been determined in order to compare the mobilities of the simple and the tetra-substituted ammonium ion. It is remarkable that in spite of its complexity the NE t 4 + ion ( l 0 = 62) moves faster than the NH4 + ion ( l 0 = 58) and has a higher mobility in methyl alcohol than any cation except cæsium ( l 0 = 62·3 ) and hydrogen ( l 0 = 142), just as the symmetrical ClO 4 - ion is faster than the simple chlorine ion.
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The excitation of band systems by electron impact The conductivities of tetraethylammonium and ammonium salts in methyl alcohol Discussion on the structure of the atom. The Relation between the Crystal Symmetry of the Simpler Organic Compounds and their Molecular Constitution.- Part III First photographs of the canals of Mars
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