A General Classification of Electrolyte Solutions Based on Their Charge and Mass Transport Properties.

The conventional classification of electrolyte solutions as 'strong' or 'weak' accounts for their charge transport properties, but neglects their mass transport properties, and is not readily applicable to highly concentrated solutions. Here, we use the Onsager transport formalism in combination with linear response theory to attain a more general classification taking into account both charge and mass transport properties. To this end, we define a molar mass transport coefficient {\Lambda}_mass, which is related to equilibrium center-of-mass fluctuations of the mobile ions and which is the mass-transport analogue of the molar ionic conductivity {\Lambda}_charge. Three classes of electrolyte solution are then distinguished: (i) 'Strong' electrolytes with 4{\Lambda}_mass \approx {\Lambda}_charge; (ii) 'weak charge transport electrolytes' with {\Lambda}_charge << 4{\Lambda}_mass; and (iii) 'weak mass transport electrolytes' with 4{\Lambda}_mass << {\Lambda}_charge. While classes (i) and (ii) encompass the classical 'strong' and 'weak' electrolytes, respectively, many highly concentrated electrolytes fall into class (iii) and thus exhibit transport properties clearly distinct from classical 'strong' and 'weak' electrolytes.