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Washington University

Reinforced AEM Separators Based on Triblock Copolymers for Electrode-decoupled RFBs

The Washington University team will develop new membrane separators for redox flow batteries using a styrene-ethylene-butylene block copolymer. The team will investigate three types of membrane construction to achieve the high levels of ion selectivity and mechanical stability necessary for use in flow batteries. If needed, the team will also explore the addition of inorganic silica particles in the polymer membrane to enhance selectivity. While many flow batteries utilize proton exchange membrane (PEM) separators that conduct positively-charged ions, the proposed membrane in this project is an anion exchange membrane (AEM) that will conduct negatively-charged ions. An inexpensive, durable AEM will allow for improved efficiency and lower system cost in existing flow battery systems such as the iron-chromium redox flow battery as well as enabling development of new low-cost chemistries.

The ARPA-E model is unique in that the agency does not just provide teams funding. Throughout the lifetime of an ARPA-E award, ARPA-E Program Directors and Tech-to-Market Advisors also provide teams with expert advice through quarterly reviews and onsite visits. This hands-on approach helps ensure teams can meet ambitious milestones, target and tackle problems early on, and advance their technologies towards commercialization. Program Director Dr. Isik Kizilyalli explains the importance of this active project management approach in helping teams identify and overcome barriers. In this video, Energy Storage Systems (ESS) from the GRIDS program and Monolith Semiconductors from the SWITCHES program discuss how ARPA-E’s active project management approach helped them find solutions to technical challenges.

ARPA-E is supporting some of the best and brightest scientific minds across the country to turn aspirational ideas into tangible technology options. By presenting an ambitious energy challenge to the U.S. research and development community, ARPA-E attracts ideas from a diverse group of innovators, representing traditional and non-traditional energy backgrounds, who look to address energy challenges in new and exciting ways. Founder and CEO of Alveo Energy Dr. Colin Wessels and Co-Founder and CEO of Indoor Reality Dr. Avideh Zakhor are two ARPA-E project investigators that have made great progress, with support from the ARPA-E Tech-to-Market team, in advancing their technologies out of the lab and into the marketplace.

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