| 1 |
Measurement of transference numbers for lithium ion electrolytes via four different methods, a comparative study
Zugmann S, Fleischmann M, Amereller M, Gschwind RM, Wiemhofer HD, Gores HJ
Electrochimica Acta, 56(11), 3926, 2011 |
| 2 |
Salt Diffusion Coefficients, Concentration Dependence of Cell Potentials, and Transference Numbers of Lithium Difluoromono(oxalato)borate-Based Solutions
Zugmann S, Fleischmann M, Amereller M, Gschwind RM, Winter M, Gores HJ
Journal of Chemical and Engineering Data, 56(12), 4786, 2011 |
| 3 |
Electrochemical characterizaiton of electrolytes for lithium-ion batteries based on lithium difluoromono(oxalato)borate
Zugmann S, Moosbauer D, Amereller M, Schreiner C, Wudy F, Schmitz R, Schmitz R, Isken P, Dippel C, Muller R, Kunze M, Lex-Balducci A, Winter M, Gores HJ
Journal of Power Sources, 196(3), 1417, 2011 |
| 4 |
Fractional Walden Rule for Ionic Liquids: Examples from Recent Measurements and a Critique of the So-Called Ideal KCl Line for the Walden Plot
Schreiner C, Zugmann S, Hartl R, Gores HJ
Journal of Chemical and Engineering Data, 55(5), 1784, 2010 |
| 5 |
Multichannel Conductivity Measurement Equipment for Efficient Thermal and Conductive Characterization of Nonaqueous Electrolytes and Ionic Liquids for Lithium Ion Batteries
Schweiger HG, Wachter P, Simbeck T, Wudy F, Zugmann S, Gores HJ
Journal of Chemical and Engineering Data, 55(5), 1789, 2010 |
| 6 |
Effect of Ionic Liquids as Additives on Lithium Electrolytes: Conductivity, Electrochemical Stability, and Aluminum Corrosion
Moosbauer D, Zugmann S, Amereller M, Gores HJ
Journal of Chemical and Engineering Data, 55(5), 1794, 2010 |
| 7 |
Temperature Dependence of Viscosity and Specific Conductivity of Fluoroborate-Based Ionic Liquids in Light or the Fractional Walden Rule and Angell's Fragility Concept
Schreiner C, Zugmann S, Hartl R, Gores HJ
Journal of Chemical and Engineering Data, 55(10), 4372, 2010 |
