| 1 |
Theoretical modeling of the gas humidification effect on the characteristics of proton ceramic fuel cells
Putilov LP, Demin AK, Tsidilkovski VI, Tsiakaras P
Applied Energy, 242, 1448, 2019 |
| 2 |
A tape calendering method as an effective way for the preparation of proton ceramic fuel cells with enhanced performance
Medvedev D, Lyagaeva J, Vdovin G, Beresnev S, Demin A, Tsiakaras P
Electrochimica Acta, 210, 681, 2016 |
| 3 |
Evaluation of proton conducting BCY10-based anode supported cells by co-pressing method: Up-scaling, performances and durability
Dailly J, Marrony M, Taillades G, Taillades-Jacquin M, Grimaud A, Mauvy F, Louradour E, Salmi J
Journal of Power Sources, 255, 302, 2014 |
| 4 |
BCY-based proton conducting ceramic cell: 1000 h of long term testing in fuel cell application
Dailly J, Marrony M
Journal of Power Sources, 240, 323, 2013 |
| 5 |
Sandvik Sanergy HT - A potential interconnect material for LaNbO4-based proton ceramic fuel cells
Skilbred AWB, Haugsrud R
Journal of Power Sources, 206, 70, 2012 |
