981 |
Electrochemical properties of Li8-2xMxZrO6 (M = Mg, Sr) solid electrolytes Shchelkanova MS, Pantyukhina MI, Kalashnova AV, Plaksin SV Solid State Ionics, 290, 12, 2016 |
982 |
Protonic conductivity of polycrystalline materials evaluated with effective medium percolation approach: A case study on lithium-carboxylate based MOF Zima V, Shimakawa K, Lin CH Solid State Ionics, 292, 98, 2016 |
983 |
Ni/YSZ electrodes structures optimized for increased electrolysis performance and durability Hauch A, Brodersen K, Chen M, Mogensen MB Solid State Ionics, 293, 27, 2016 |
984 |
A lithium ion conductor in Li4SiO4-Li3PO4-LiBO2 ternary system Aslam M, Kong XY Solid State Ionics, 293, 72, 2016 |
985 |
Ca3Co4O9+delta, a growing potential SOFC cathode material: Impact of the layer composition and thickness on the electrochemical properties Rolle A, Mohamed HAA, Huo D, Capoen E, Mentre O, Vannier RN, Daviero-Minaud S, Boukamp BA Solid State Ionics, 294, 21, 2016 |
986 |
Role of microstructure on electrode operating mechanisms for mixed ionic electronic conductors: From synchrotron-based 3D reconstruction to electrochemical modeling Hubert M, Laurencin J, Cloetens P, da Silva JC, Lefebvre-Joud F, Bleuet P, Nakajo A, Siebert E Solid State Ionics, 294, 90, 2016 |
987 |
Improved ionic conductivity in NASICON-type Sr2+ doped LiZr2(PO4)(3) Kumar S, Balaya P Solid State Ionics, 296, 1, 2016 |
988 |
Redox and phase behavior of Pd-substituted (La,Sr)CrO3 perovskite solid oxide fuel cell anodes Zenou VY, Fowler DE, Gautier R, Barnett SA, Poeppelmeier KR, Marks LD Solid State Ionics, 296, 90, 2016 |
989 |
Model composite microelectrodes as a pathfinder for fully oxidic SOFC anodes Gerstl M, Hutterer A, Fleig J, Bram M, Opitz AK Solid State Ionics, 298, 1, 2016 |
990 |
Development and characterization of proton conducting polymer electrolyte based on PVA, amino acid glycine and NH4SCN Pandi DV, Selvasekarapandian S, Bhuvaneswari R, Premalatha M, Monisha S, Arunkumar D, Junichi K Solid State Ionics, 298, 15, 2016 |