Constructing a Multifunctional Interface between Membrane and Porous Transport Layer for Water Electrolyzers
Chang Liu, Klaus Wippermann, M. Rasiński, Yanpeng Suo, Meital Shviro, Marcelo Carmo, Werner Lehnert
Abstract
on the PTLs would be sufficient to achieve the same cell performance as PTLs with a higher Ir loading. This Ir loading is a 40-fold reduction over the Au or Pt loading typically used for protective layers in current commercial PEM water electrolyzers. We show that the Ir protective layer here not only decreases the Ohmic resistance significantly, which is the largest part of the gain in performance, but moreover, the oxygen evolution reaction activity of the iridium layer makes it promising as a cost-effective catalyst layer. Our work also confirms that the proper construction of a multifunctional interface between a membrane and a PTL indeed plays a crucial role in guaranteeing the superior performance and efficiency of electrochemical devices.