INDEX  iI

            Models                            Murphy, Oliver, President of Lynntech, College
              in electrolyte theory,  detailed, 332  Station, Texas, 32
              for entropy calculations, 134
               near ions, 133                 NASA, their critical decision to use fuel cells, 3
              for hydration shells, 120       Nernst, Walter, professor in Berlin, 263
              for ionic solvation, 115        Nernst–Einstein
              for liquid silicates, 738        deviations, in molecular mechanism, 662
              for region near an ion, 116      equation, 456
              for solvation, 202                 deviations from,  460
              for the structure of a hydration shell,  161  tested, 664
            Molar conductivity                 relation,
              and equivalent conductivity, 432   for equivalent conductance, 661
              in methoxyethane, 541              in ionic  liquids, 660
              tabulated, 434                     some limitations, 457
            Molecular dynamic calculations, for molten  Nernst–Planck
                  salts, 621                   equation, applied to deposition of anions at
            Molecular dynamics                      cathodes, 476
              the basic equations used, 155    flux, and  transport numbers, 482
              and protein hydration, 193       flux  equation, 475
              and self diffusion,  164           applied to problems, 481
              simulation, 203                 Network theory, of liquid silicates, 739
               for ionic solutions, 320       Neugebauer, and  introduction of FTIR into
              and solvation, 40                     electrochemistry, 20
               an early attempt,  154         Neutron  diffraction
              and the study of complexing, 627  application to chloro-aluminates, 713
            Molecular models, for DMSO, 17     approach to solvation, 77
            Molten cryolite, Raman analysis of its struc-  and  distribution functions, 45
                  ture, 703                    the experimental arrangement, 617
            Molten salts                       used by Enderby and Neilson, 78
              binary, as seen from neutron diffraction, 619  Neutrons, not X-rays, for diffraction experi-
              conductivities, 607                   ments, 618
              and electronic conduction, 715  Neutron scattering, inelastic, 82
              glass forming, 642              Newton’s laws, applied to ionic motion, 373
              modeling, 621                   Nitrate, their spectra, and information it will
              and neutron diffraction, 612          give towards solvation, 85
              as reaction media, 717          NMR spectra in lithium silicate, 748
               why they are good reaction media, 718  Nonaqueous solutions
              at room temperature, 19, 720     a frontier in ionics, 16
              structure among complexes of, 631  how much empirical data is available?, 538
            Monographs, series of, in electrochemistry, 33  a new  frontier?,  534
            Monomers, dimers and trimers, as a function of  and solvation therein, 74
                  concentration, computed, 330  their plus and minus,  536
            Monte Carlo                       Noncoulombic forces, and ion pair formation,
              approach, 319                         551
              approach to solvation, 39       Nonelectrolytes, interaction with ions, 166
              and MD techniques:  their future, 322  Nonmetallic oxides, solvent properties, 733
              simulation, of potassium chloride, 623  Nuclear magnetic resonance
            Movements, of ions, under applied field, 442  and molten salts,  709
            MSA                                in solvation structures, 85, 86
              and Blum’s theory of conductance, 525  spectroscopy, in electrolytic solutions, 340
              a description, 41                studies, 341