Large scale deployment of renewable power sources like wind and solar require energy storage because of their intermittent nature. The Hydrogen-Bromine (H2-Br2) fuel cell system is considered to be a suitable electrical energy storage system because of its high energy capacity, high round-trip conversion efficiency and low cost. See Figure 1. While the bromine reactions do not need to be catalyzed, the hydrogen (HER/HOR) reactions require a catalyst that is highly active, to keep the performance high and the cost low, and stable and durable in the highly corrosive HBr/Br2 environment of the cell as required by the extended life of this application. Platinum, while having very high catalytic activity for the HER/HOR reactions, is not stable in the HBr/Br2 environment. An alternative catalyst is needed. This presentation will discuss the performance and stability of vari ous HER/HOR catalysts that we have evaluated for this fuel cell system.