CCS and Power Systems
Advanced Energy Systems - Solid Oxide Fuel Cells
Enhancement of Solid Oxide Fuel Cell (SOFC) Cathode Electrochemical Performance Using Multi-Phase Interfaces
Performer: University of Wisconsin System
Project No: FE0009435
Project Scope and Technology Readiness Level
The University of Wisconsin’s (UW) team will focus initially on patterned thin films of lanthanum strontium cobalt ferrite (LSCF)-113 with varying levels of LSC-214 decoration. Patterned films have controlled orientations, interfacial relationships, and surface geometry, making them far better suited for extracting quantitative electrochemical properties and catalytic mechanisms than standard sintered electrode structures. These films will be studied with a combination of linear-and non-linear electrochemical impedance spectroscopy to establish the magnitude of their oxygen reduction reaction (ORR) activity and the underlying mechanisms. These data will be interpreted through both standard equivalent circuit analysis and modeling of the elemental kinetic processes. Molecular-scale ab-initio methods will be used to provide qualitative guidance on local composition, defect chemistry, reaction mechanisms, and reaction rate barriers at surfaces and interfaces. The work will extend beyond the thin-film studies to realize the interfacial enhancement under realistic SOFC conditions and will be accomplished through studying LSCF-113 porous electrodes decorated with LSC-214 and tested in SOFC button cells. Porous SOFC cathodes with enhanced performance and durability will be developed based on a proven LSCF material platform, which could enable SOFC operation at lower temperatures. As this enhancement requires elements and structures that are very similar to those of pure LSCF, it has the potential to be achieved at no significant detriment to metrics of cost, stability, or lifetime of the cathode. Lowering operating temperatures of SOFCs will reduce component degradation, extend life, and reduce working cost.
The Technology Readiness Level (TRL) assessment identifies the current state of readiness of the key technologies being developed under the DOE’s Clean Coal Research Program. In FY 12, this project was not assessed.
The TRL assessment process and its results including definition and description of the levels may be found in the "2012 Technology Readiness Assessment-Analysis of Active Research Portfolio".