A Nonaqueous Redox-Matched Flow Battery with Charge Storage in Insoluble Polymer Beads

We describe the nonaqueous redox-matched flow battery (RMFB), where charge is stored on redox-active moieties covalently tethered to non-circulating, insoluble polymer beads and charge is transferred between the electrodes and the beads via soluble mediators with redox potentials matched to the active moieties on the beads. The RMFB reported herein uses ferrocene and viologen derivatives bound to crosslinked polystyrene beads. Charge storage in the beads leads to a high (approximately 1.0-1.7 M) effective concentration of active material in the reservoirs while preventing crossover of that material. The relatively low concentration of soluble mediators (15 mM) eliminates the need for high-solubility molecules to create high energy density batteries. Nernstian redox exchange between the beads and redox-matched mediators was fast relative to the cycle time of the RMFB. This approach is generalizable to many different redox-active moieties via attachment to the versatile Merrifield resin.

Automated summary

The nonaqueous redox-matched flow battery (RMFB) stores charge on redox-active moieties tethered to insoluble polymer beads, transferring charge between electrodes and beads via soluble mediators with matching redox potentials. This approach enables high energy density and prevents crossover of active material.