The small molecule study suggests that the removal of the phosphoric acid from the phosphoric acid cluster does not occur due to the stronger interaction of phosphoric acid and water. On the contrary, adding water molecules to the PA cluster increases the cluster interaction energy by creating hydrogen bonding. In the phosphoric acid incorporated PEMs, we observed a consistent result that adding water increases the PA cluster volume rather than losing phosphoric acid. However, with excessive water activity, the polymer loses phosphoric acid due to the incapability to hold the water and phosphoric acid beyond a certain level.1 In the phosphoric acid loss process, the equilibrium phosphoric acid composition in the cluster plays a critical role.
In the latter part of this presentation, we explain how the acid-base interaction and ion-pair interaction impact the equilibrium phosphoric acid composition the phosphoric acid cluster. We also explain how the equilibrium phosphoric acid composition affects the proton conductivity at different RH level. Finally, we demonstrate the high-temperature membrane fuel cell durability in the presence of water to prove the newly proposed acid loss mechanism. This presentation provides critical insights to design high-temperature proton exchange membranes.
Reference
1. A. S. Lee, Y. -K. Choe, I. Matanovic, Y. S. Kim, The energetic of phosphoric acid interactions reveals a new acid loss mechanism, J. Mater. Chem. A. DOI: 10.1039/C9TA01756A (2019).