Lattice Energies and Other Properties of Crystals of Alkaline Earth Chalcogenides
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概要
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The lattice energies of the 20 binary compounds composed of Be^<++> Mg^<++>, Ca^<++>, Sr^<++>, Ba^<++>, O^<-->, S^<-->, Se^<--> and Te^<--> have been computed by previously well-tested procedures. Because of lack of sufficiently reliable compressibility data, the computations have been made with two different assumptions regarding the magnitude of the constant a in the exponent of the repulsion energy term. These two assumptions yield lattice energies which differ, in most cases, by about 20kcal. In general, a single value of the "constant energy radius" suffices for each type of ion. For the beryllium compounds, however, it was necessary to use different radii for the Be^<++> ion for each compound. In MgTe also, a slightly different Mg^<++> radius from that deduced for the other magnesium compounds was required. These irregularities may be related to the fact that these crystals have "tetrahedral" structures, unlike the others, with significant but unknown amounts of covalent bonding. The characteristic constants deduced should be useful in the theoretical treatment of many properties dependent on interactions between ions, both in these crystals and in other systems. For these crystals, the interionic distances, compressibilities and maximum infrared lattice-vibration frequencies have been computed. By combining the computed lattice energies with thermochemical data, electron affinities (for the addition of two electrons to each of the electronegative atoms) have been computed and compared. Based on these results, the authors' best estimates, in kcal/mole, are as follows: O, -162±15; S, -99±15; Se, -117±15; Te, -97±20.
- 社団法人日本物理学会の論文
- 1957-03-05
著者
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Huggins Maurice
Research Laboratories Eastman Kodak Co.
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SAKAMOTO Yosio
Department of Chemistry, Faculty of Science, Hiroshima University