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INDEX xlv
Galvani, his adventure with a frog’s legs, 1 Helix–Coil transitions, affected by solvation,
Gamboa–Aldeco, on the compression of ions in 197
the double layer, 190 Heller, and conducting enzymes, 23
Gamma functions, some properties, 755 Hewich, Neilson, and Enderby, 1982 determi-
Gas phase nation of life time of water in vicinity
and ionic hydration, 93 of ion, 80
solvation and Hiraoka, 97 Hiraoka, and solvation in the gas phase, 97
Geology, and electrochemistry, 15 Histogram, showing distribution of O-Na-O
Gibbs–Duhem equation and the determination angles, 159
of activity coefficients, 262 Hitchens, and wastewater treatment, 26
Glasses, 734 Hittorf’s method, 489
Glass forming, molten salts, 642 diagrammated, 490
Glucose, and diabetics, 22 the theory, 491
Gouy, originator of the ion–atmosphere model, Hole, mass, 754
292 Hole model
Greenler theorem, 21 for molten salts, 633
Grotthus mechanism, and proton conductance, and probability function, 634
569, 570 and transport, 674
Grove, and power from chemical reactions, Hole radius, for molten salts, tabulated, 641
diagrammated, 12 Hunt and Taube, their determination of the
Grove, the discovery of fuel cells, 2 lifetime of water in a hydration
Guntelberg charging process, 302 shell, 82
Gurney Hussy, seminal contributions to molten salt
his 1936 book on ions in solution, 50 chemistry, 19
his idea of a co-sphere, 334 Hydration
Gutmann, his theory of metabolism, 24 in biological systems, spectroscopic studies
of, 198
Hal ides, hydration numbers, 144 in biophysics, 192
Halliwell and Nyburg of cations and anions, 201
the essence of their method, 109 in chemistry, and Conway, 50
and the individual properties of the proton, of cross linked polymers, 191
99 and diffusion of polyions, 193
Haymet and entropy changes occurring near it, 126
and dimer formation in electrolytes, calcu- and IR spectra, 73
lated, 331 its breadth as a field, 37
study of 2:2 electrolytes, 331 its dependence on radius, 54
Heat and entropy, for hydration, a relation?, and model calculations of Bockris and Sa-
138 luja, 114
Heat changes, accompanying hydration, dia- models, plotted against radius, 125
grammated, 117 quantities dependent on the number of
Heats of hydration ligands, 96
and atomic number, 150 polyions, 190
individual ions, 110 of proteins, 194
numerical evaluations from the theory, 124 and radial distribution functions, 156
relative, tabulated, 101 and thermochemical quantities, 96
tabular, 52 for transition metals, its strange dependence
for transition metals, 151 on atomic number, 145
Heats of solvation, thermodynamic approach, Hydration heats, and model calculations, 114
51 Hydration numbers
Heinziger, his contributions to computer simu- from activity coefficients, 299, 68
lation in ionic solutions, 343 affected by the dynamics of water, 141
