The Redox Flow Batteries team is looking to enroll students for course credit in the Spring 2026 semester. Paid opportunities may be available on a case-by-case basis.
After so many decades of intensive use of coal and oil as major sources of energy, humanity must now face the pollution and global warming problems that they have induced. Massively embracing solar, wind, and tidal renewable energy for electricity production is a relevant response to the global energy needs. However, due to the transitory nature of most renewable energy, their use requires many adjustments, primarily the development of energy storage systems able to store electricity during periods of overproduction (e.g., daytime for solar) and then redistribute it during periods of high electricity demand (e.g., evening and night).
While Li-ion-based batteries are a potential short-term response, the depletion of lithium stocks and their strategic geopolitical importance make it essential to develop new solutions. Several sustainable approaches are being considered in the energy-storage field. Among them, a promising, large-scale storage technology is Redox Flow Batteries (RFBs), in which energy is stored in liquid electrolyte solutions that flow through a battery of electrochemical cells. To date, reliable chemical solutions have been developed based on metal ion electrolytes, but these face toxicity problems that are gradually becoming too damaging and too costly for larger civilian applications.
The goal of this project is to develop a new class of electrolyte for RFBs that can manage long-duration energy storage and overcome the limitations of Li-ion-based and vanadium-based batteries. To that end, students involved in this project will conduct research on one or more of the following topics:
- Synthesis of novel electrolytes
- Testing the solubility of the electrolytes
- Analyzing the electrochemical behaviors of the electrolyte
- Developing and engineering the battery prototype
- Analyzing the data
- Molecular models
For more information about this team, please visit: https://uavip.arizona.edu/redox-flow-batteries-rfbs-long-duration-energy-storage
