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Zinc thermodynamic properties

Sanders (83) constructed a supramolecular assembly of heterometal-lic porphyrins held together by different types of metal-ligand interaction. The team exploited the different kinetic and thermodynamic properties of the pyridine-zinc, carboxylate-tin, and pyridine-... [Pg.243]

Thermochemical attention in this chapter is directed towards compounds with carbon—zinc bonds, i.e. species that are usually labeled organometallic. The thermodynamic properties that we discuss are restricted to the enthalpy of formation (often called the heat of formation ), enthalpy of vaporization and carbon—zinc bond energies. We forego discussion of other thermochemical properties such as entropy, heat capacity or excess enthalpy. The energy units are kJmoU where 4.184 kJ is defined to equal 1 kcal. [Pg.137]

Chiotti, P. Mason, J. T., Phase Diagram and Thermodynamic Properties of the Uranium-Zinc System, J. Less Common Metals, 1975, Uo, 39. [Pg.182]

The electrolyte in the measurements of the thermodynamic properties of bismuth sele-nide and telluride and of antimony telluride was the easily melted mixture of anhydrous zinc chloride (analytic purity) with sodium and potassium chlorides (chemical purity grade). The melting point of this mixture was Tmp — 208 C. The thermodynamic properties of antimony selenide were determined using a mixture of aluminum chloride (distilled twice in vacuum) and sodium chloride (chemical purity grade). The meltii point of this mixture was Tmp = 150-155°C. [Pg.160]

Stromberg D, Sandstrom M, Wahlgren U (1990) Theoretical calculations on the stracture of the hexahydrated divalent zinc, cadmium and mercury ions. Chem Phys Lett 172 49-54 Svegensky DA, Shock EL, Helgeson HC (1997) Prediction of thermodynamic properties of aqueorrs metal complexes to 1000°C and 5 kb. Geochim Cosmochim Acta 61 1359-1412 Tabata M, Ozutsumi K (1992) Eqirilibrium and EXAFS studies of mercury(II) porphyrin in aqueous solution. Brrll Chem Soc Jap 65 1438-1444... [Pg.317]

Nasar A, Shamsuddin M (1992) Investigations of the thermodynamic properties of zinc... [Pg.146]

Goumri-Said, S., M.B. Kanoun, A.E. Merad, G. Merad and H. Aourag 2004, Prediction of structural and thermodynamic properties of zinc-blende AIN molecular dynamics simulation. Chem. Phys., 302 pp. 135-141. [Pg.342]

Grpnvold F, Meisingset KK (1982) Thermodynamic properties and phase transitirais of salt hydrates between 270 and 400 K. I. Ammimium aluminum sulfate, potassium aluminum sulfate, aluminum sulfate, zinc sulfate, sodium sulfate, and sodium thiosulfate hydrates. J Chem Thermodyn 14 1083-1098... [Pg.121]

T. R. Ingraham and H. H. Kellogg, Thermodynamic properties of zinc sulfate, zinc basic sulfate and the system Zn-S-O, Trans. Amer. Inst. Min. Eng. 221, 1419-1426... [Pg.388]

Barton, P.B. and Bethke, P.M. (1960) Thermodynamic properties of some synthetic zinc and copper minerals. Am. J. Set, 258A, 21-34. [Pg.701]

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Zinc properties

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