The Representation of Electrical Conductances for Polyvalent Electrolytes by the Quint–Viallard Conductivity Equation
Author:
Publisher
Springer Science and Business Media LLC
Subject
Physical and Theoretical Chemistry,Molecular Biology,Biochemistry,Biophysics
Link
http://link.springer.com/content/pdf/10.1007/s10953-016-0556-9.pdf
Reference57 articles.
1. Apelblat, A.: The representation of electrical conductances for polyvalent electrolytes by the Quint–Viallard conductivity equation. Part 1. Symmetrical 2:2 type electrolytes. Dilute aqueous solutions of alkaline earth metal sulfates and transition metal sulfates. J. Solution Chem. 40, 1209–1233 (2011)
2. Apelblat, A.: The representation of electrical conductances for polyvalent electrolytes by the Quint–Viallard conductivity equation. Part 2. Symmetrical 3:3 type electrolytes. Dilute aqueous solutions of rare earth hexacyanoferrates(III) and hexacyanocobaltates(III). J. Solution Chem. 40, 1724–1734 (2011)
3. Apelblat, A.: The representation of electrical conductances for polyvalent electrolytes by the Quint–Viallard conductivity equation. Part 3. Unsymmetrical 3:1, 1:3, 3:2, 4:1, 1:4, 4:2, 2:4, 1:5 1:6 and 6:1 type electrolytes. Dilute aqueous solutions of rare earth salts, various cyanides and other salts. J. Solution Chem. 40, 1291–1316 (2011)
4. Apelblat, A.: The representation of electrical conductances for polyvalent electrolytes by the Quint–Viallard conductivity equation. Part 4. Symmetrical 2:2, 3:3 and unsymmetrical 2:1, 3:1 and 1:3 type electrolytes in pure organic solvents. J. Solution Chem. 40, 1234–1257 (2011)
5. Apelblat, A.: The representation of electrical conductances for polyvalent electrolytes by the Quint–Viallard conductivity equation. Universal curves of limiting conductances and Walden products of electrolytes in mixed solvents. Part 5. Symmetrical 2:2, 3:3 and unsymmetrical 1:2, 2:1 and 1:3 type electrolytes. J. Solution Chem. 40, 1544–1562 (2011)
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