Publications Details

Mediated Flow Batteries

Small, Leo J.; Laros, James H.; Staiger, Chad S.; Anderson, Travis M.

The energy density of nonaqueous redox flow batteries is often limited by the concentration of the redox active species soluble in solution. A possible route to increasing the this energy density is through the use of energy-dense solid materials such as polyoxometalates, LiFePO₄, or Li_xTi0₂. These solid materials can be contained in canisters through which an electrolyte with dissolved redox-active species is flowed. The redox potentials for the flowing species are chosen specifically such that they mediate the chemical reduction and oxidation of the solid components. This strategy is advantageous in that it allows for independent optimization of the flow electrolyte (e.g. for low viscosity, high charging rate) and the solid energy storing media (e.g. high energy density). This report summarizes results using a variety of redox active organic and metalorganic species to mediate the oxidation and reduction of polyoxometalate and Li-ion battery chemistries in a redox flow battery system.