IMN

Biblio. IMN

Liste de références

Affichage de 1 - 14 de 14 (Bibliographie: Bibliographie WIKINDX globale)
Paramètres :
Mot-clé:  oxide fuel-cells
Ordonner par

Croissant
Décroissant
Utiliser tout ce qui est coché 
Utiliser tout ce qui est affiché 
Utiliser tous les items 
Bahout, M., Managutti, P. B., Dorcet, V., La Salle, A. L. G., Paofai, S. & Hansen, T. C. (2020) In situ exsolution of Ni particles on the PrBaMn2O5 SOFC electrode material monitored by high temperature neutron powder diffraction under hydrogen. J. Mater. Chem. A, 8 3590–3597.   
Last edited by: Richard Baschera 2020-04-10 12:56:49 Pop. 1%
Benamira, M., Thommy, L., Moser, F., Joubert, O. & Caldes, M. T. (2014) New anode materials for IT-SOFC derived from the electrolyte BaIn0.3Ti0.7O2.85 by lanthanum and manganese doping. Solid State Ion. 265 38–45.   
Added by: Laurent Cournède 2016-03-10 21:01:54 Pop. 0.75%
Benamira, M., Letilly, M., Quarez, E., Joubert, O. & La Salle, L. G. A. (2014) Optimization of SOFC anode/electrolyte assembly based on BaIn0.3Ti0.7O2.85 (BIT07)/Ni-BIT07 using an interfacial anodic layer. J. Power Sources, 251 66–74.   
Added by: Florent Boucher 2016-04-29 09:26:44 Pop. 0.75%
Delahaye, T., Jardiel, T., Joubert, O., Laucournet, R., Gauthier, G. & Caldes, M. T. (2011) Electrochemical properties of novel SOFC dual electrode La0.75Sr0.25Cr0.5Mn0.3Ni0.2O3 (-) (delta). Solid State Ion. 184 39–41.   
Added by: Laurent Cournède 2016-03-10 21:32:21 Pop. 0.5%
Jardiel, T., Caldes, M. T., Moser, F., Hamon, J., Gauthier, G. & Joubert, O. (2010) New SOFC electrode materials: The Ni-substituted LSCM-based compounds La0.75Sr0.25)(Cr0.5Mn0.5-x Ni-x)O-3 (-) (delta) and (La0.75Sr0.25)(Cr0.5- xNixMn0.5)O-3 (- delta). Solid State Ion. 181 894–901.   
Added by: Laurent Cournède 2016-03-10 21:37:32 Pop. 1%
Jarry, A., Quarez, E. & Joubert, O. (2014) Tailoring conductivity properties of chemically stable Baln(1-x-y)Ti(x)Zr(y)O(2.5) (+ (x + y)/2-n)(OH)(2n) electrolytes for proton conducting fuel cells. Solid State Ion. 256 76–82.   
Added by: Florent Boucher 2016-04-29 09:26:44 Pop. 0.75%
Kravchyk, K. V., Quarez, E., Solis, C., Serra, J. M. & Joubert, O. (2011) Cathode materials for La0.995Ca0.005NbO4 proton ceramic electrolyte. Int. J. Hydrog. Energy, 36 13059–13066.   
Added by: Laurent Cournède 2016-03-10 21:32:20 Pop. 0.75%
Letilly, M., Joubert, O. & La Salle, A. L. G. (2012) Characterisation and optimisation of the cathode/electrolyte couple for SOFC LSCF/BIT07. J. Power Sources, 212 161–168.   
Added by: Laurent Cournède 2016-03-10 21:28:38 Pop. 0.75%
Letilly, M., La Salle, L. G. A. & Joubert, O. (2009) Electrochemical Optimization of LSCF/BIT07 as an Alternative Cathode/Electrolyte Couple for SOFC. Singhal, S. C. & Yokokawa, H. (Eds.), Solid Oxide Fuel Cells 11 (sofc-Xi) Pennington.   
Added by: Laurent Cournède 2016-03-10 21:41:25 Pop. 1%
Letilly, M., Joubert, O., Caldes, M. .-T. & La Salle, L. G. A. (2012) Tape casting fabrication, co-sintering and optimisation of anode/electrolyte assemblies for SOFC based on BIT07-Ni/BIT07. Int. J. Hydrog. Energy, 37 4346–4355.   
Added by: Laurent Cournède 2016-03-10 21:28:39 Pop. 0.75%
Letilly, M., La Salle, L. G. A., Caldes, M., Marrony, M. & Joubert, O. (2009) Validation of BaIn0.3Ti0.7O2.85 as SOFC Electrolyte with Nd2NiO4, LSM and LSCF as Cathodes. Fuel Cells, 9 622–629.   
Added by: Laurent Cournède 2016-03-10 21:41:23 Pop. 1%
Quarez, E., Kravchyk, K. V. & Joubert, O. (2012) Compatibility of proton conducting La6WO12 electrolyte with standard cathode materials. Solid State Ion. 216 19–24.   
Added by: Laurent Cournède 2016-03-10 21:28:39 Pop. 0.75%
Thabet, K., Devisse, M., Quarez, E., Joubert, O. & La Salle, L. G. A. (2018) Influence of the autocombustion synthesis conditions and the calcination temperature on the microstructure and electrochemical properties of BaCe0.8Zr0.1Y0.1O3-delta electrolyte material. Solid State Ion. 325 48–56.   
Last edited by: Richard Baschera 2018-12-20 08:38:32 Pop. 0.75%
Thommy, L., Joubert, O., Hamon, J. & Caldes, M.-T. (2016) Impregnation versus exsolution: Using metal catalysts to improve electrocatalytic properties of LSCM-based anodes operating at 600 degrees C. Int. J. Hydrog. Energy, 41 14207–14216.   
Last edited by: Richard Baschera 2016-10-07 09:08:38 Pop. 0.75%
wikindx 4.2.2 ©2014 | Références totales : 2685 | Requêtes métadonnées : 85 | Exécution de script : 0.1048 secs | Style : Harvard | Bibliographie : Bibliographie WIKINDX globale