L.O. Gilpatrick scite author profile

The densities of the molten alkali fluoroborates were each measured over a temperature interval of approximately 150°C using a dilatometric method. The molar volumes and expansivities derived from these measurements exhibit the order predicted from the periodic table. At equal corresponding temperatures, molar volumes of molten alkali fluoroborates were found to be slightly larger than the molar volumes of molten alkali iodides. For LiBF4, RbBF4, and CsBF4, melting points and solid-state transition temperatures were determined. At the solid-state transition temperature, volume changes are predicted on the basis of analogous behavior of MBF4 and MClO4. The indices of refraction of the crystalline compounds were also measured; an electronic polarization averaging 2.77 Å3 for BF4− was calculated from these measurements. The polarization of BF4− appears to decrease with increasing alkali cation size.

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Hydrogen transfer reactions of arenes in molten antimony trichloride

Dworkin¹,

Poutsma²,

Brynestad³

et al. 1979

J. Am. Chem. Soc.

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Uranium determination in sea water

1956

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Uranium analyses of sea‐water samples taken from different locations were carried out by the isotope‐dilution method. Uranium was separated by liquid‐liquid extraction from 2000 ml of sea water, for each determination. The small residue of uranium resulting from the chemical separation was analyzed by mounting it on a tantalum filament and examining the U02+ thermal ions in a Nier six‐inch radius, 60° sector‐type mass spectrometer. The results show a concentration of 3.1 to 3.5 micrograms of uranium per kilogram of sea water, with a uranium/sahnity ratio of 9.0 to 9.8 X 10minus;8.

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L.O. Gilpatrick

545. The osmotic behaviour of representative aqueous salt solutions at 100°

Phase relations in fluoroborate systems—I

Volumetric Properties of Molten and Crystalline Alkali Fluoroborates

Hydrogen transfer reactions of arenes in molten antimony trichloride

Uranium determination in sea water

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