Scalable and Cost Effective Barrier Layer Coating to Improve Performance and Stability of SOFC Cathode Email Page
Print This Page
Performer:  West Virginia University Research Corporation Location:  Morgantown, West Virginia
Project Duration:  10/01/2014 – 09/30/2018 Award Number:  FE0023407
Technology Area:  Solid Oxide Fuel Cells Total Award Value:  $1,051,649
Key Technology:  Cell Technology DOE Share:  $800,000
Performer Share:  $251,649

Conventional barrier layer deposited by<br/>screen printing that cannot be densified
Conventional barrier layer deposited by
screen printing that cannot be densified

Project Description

West Virginia University (WVU) will team with Northwestern University and FuelCell Energy (FCE) to improve the stability and performance of solid oxide fuel cell (SOFC) cathodes through development of a scalable and cost-effective electrophoretic deposition (EPD) process. EPD will deposit dense barrier layers, with little or no porosity, between the electrolyte and cathode. Identification of optimal barrier layer composition and thickness will be researched including an investigation of the interaction between doped ceria barrier layers in SOFC cathodes and their effect on oxygen reduction reaction kinetics, electrochemical performance, and long-term stability. A preliminary techno-economic analysis of the EPD barrier layer compared to other coating methods will be performed.

Project Benefits

The EDP process developed by the WVU-led team will produce a cost-effective scalable method to create a fully dense barrier layer for SOFC cathodes that can be easily incorporated into the manufacturing process. The team, by mitigating the degradation of commonly accepted SOFC cathode materials, will apply advanced manufacturing techniques to build an SOFC of greater stability, endurance, and performance. This will further promote widespread commercialization.

Presentations, Papers, and Publications

Contact Information

Federal Project Manager Steven Markovich:
Technology Manager Shailesh Vora:
Principal Investigator Xingbo Liu: