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Local order due to electrostatic interactions

  • P. Laszlo
Published/Copyright: January 1, 2009
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Pure and Applied Chemistry
From the journal Pure and Applied Chemistry Volume 57 Issue 8

Published Online: 2009-01-01
Published in Print: 1985-01-01

© 2013 Walter de Gruyter GmbH, Berlin/Boston

Articles in the same Issue

  1. The physical chemistry of natural waters
  2. Ionic hydration by neutron scattering
  3. The structure of aqueous electrolyte solutions as derived from MD (molecular dynamics) simulations
  4. Theoretical studies of aqueous solution structure
  5. Local order due to electrostatic interactions
  6. Solvent effects on reaction rates
  7. Aqueous mixtures to supercritical temperatures and at high pressures
  8. Data on transport properties of electrolyte solutions for applied research and technology
  9. Insights into solute-solute-solvent interactions from transport property measurements with particular reference to methanol-water mixtures and their constituents
  10. Theories of transport properties using the Onsager treatment
  11. Thermodynamic functions of transfer of single ions from water to nonaqueous and mixed solvents: Part 2 - Enthalpies and entropies of transfer to nonaqueous solvents
  12. Thermodynamic functions of transfer of single ions from water to nonaqueous and mixed solvents: Part 3 - Standard potentials of selected electrodes
  13. General aspects of trace analytical methods: Part VI. Trace analysis of semiconductor materials - Part A: Bulk analysis
  14. General aspects of trace analytical methods: Part VII. Trace analysis of semiconductor materials - Part B: Distribution analysis
https://doi.org/10.1351/pac198557081051

Articles in the same Issue

  1. The physical chemistry of natural waters
  2. Ionic hydration by neutron scattering
  3. The structure of aqueous electrolyte solutions as derived from MD (molecular dynamics) simulations
  4. Theoretical studies of aqueous solution structure
  5. Local order due to electrostatic interactions
  6. Solvent effects on reaction rates
  7. Aqueous mixtures to supercritical temperatures and at high pressures
  8. Data on transport properties of electrolyte solutions for applied research and technology
  9. Insights into solute-solute-solvent interactions from transport property measurements with particular reference to methanol-water mixtures and their constituents
  10. Theories of transport properties using the Onsager treatment
  11. Thermodynamic functions of transfer of single ions from water to nonaqueous and mixed solvents: Part 2 - Enthalpies and entropies of transfer to nonaqueous solvents
  12. Thermodynamic functions of transfer of single ions from water to nonaqueous and mixed solvents: Part 3 - Standard potentials of selected electrodes
  13. General aspects of trace analytical methods: Part VI. Trace analysis of semiconductor materials - Part A: Bulk analysis
  14. General aspects of trace analytical methods: Part VII. Trace analysis of semiconductor materials - Part B: Distribution analysis
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