Physico-chemical properties of NH4I-formamide concentrated solutions

[1]  D. Majumdar,et al.  Viscous flow in aqueous solution of quaternary ammonium salts: high concentration range , 1983 .

[2]  Josef Barthel,et al.  Conductance of salts at moderate and high concentrations in propylene carbonate-dimethoxyethane mixtures at temperatures from −45°C to 25°C , 1980 .

[3]  R. Stokes,et al.  Density, viscosity, conductance, and transference number of concentrated aqueous magnesium chloride at 25°C , 1980, Journal of Solution Chemistry.

[4]  A. Sacco,et al.  Viscosity of NaNO3 and NaSCN in formamide solutions in the temperature range 35–80°C , 1979 .

[5]  D. Goldsack,et al.  The viscosity of concentrated electrolyte solutions. II. Temperature dependence , 1978 .

[6]  S. Bufo,et al.  Physico-chemical properties of concentrated solutions of some tetraalkylammonium salts in formamide in the temperature range 25–80° , 1977 .

[7]  D. Goldsack,et al.  The viscosity of concentrated electrolyte solutions. I. Concentration dependence at fixed temperature , 1977 .

[8]  M. D. Monica Transport properties and density of NaI in N-methyl propionamide solutions in the temperature range 25–80°C , 1976 .

[9]  M. D. Monica,et al.  Electrical Conductivity, Viscosity and Density of NaI in Formamide Solutions in the Temperature Range 35–80°C , 1975 .

[10]  M. D. Monica,et al.  Density, viscosity and electrical conductivity of LiCl and some uni-bivalent electrolytes in formamide solutions at 25°C , 1975 .

[11]  M. D. Monica,et al.  Density, viscosity, and electrical conductance of sodium salts in formamide solutions at 25.deg. , 1972 .

[12]  C. Angell,et al.  Fluidity and conductance in aqueous electrolyte solutions. Approach from the glassy state and high-concentration limit. I. Calcium nitrate solutions , 1972 .

[13]  C. Angell,et al.  Concentrated electrolyte solution transport theory: directly measured glass temperatures and vitreous ice , 1967 .

[14]  C. Angell Viscous Flow and Electrical Conductance in Ionic Liquids: Temperature and Composition Dependence in the Light of the Zero Mobility Concept , 1967 .

[15]  C. Angell Free Volume-Entropy Interpretation of the Electrical Conductance of Aqueous Electrolyte Solutions in the Concentration Range 2-20 N1 , 1966 .

[16]  C. Angell On the Importance of the Metastable Liquid State and Glass Transition Phenomenon to Transport and Structure Studies in Ionic Liquids. I. Transport Properties1 , 1966 .

[17]  C. Angell Free Volume Model for Transport in Fused Salts: Electrical Conductance in Glass-Forming Nitrate Melts , 1964 .

[18]  G. H. Brown,et al.  A STUDY OF THE CONDUCTANCE BEHAVIOR OF LITHIUM AND AMMONIUM IODIDES IN n-BUTANOL1-3 , 1962 .

[19]  V. Vand Viscosity of solutions and suspensions; theory. , 1948, The Journal of physical and colloid chemistry.

[20]  W. C. Root AN EQUATION RELATING DENSITY AND CONCENTRATION , 1933 .