Oxygen-ion conducting electrolyte materials for solid oxide fuel cells S. P. S. BadwalF. T. Ciacchi OriginalPaper Pages: 1 - 21
4-Volt cathode materials for rechargeable lithium batteries wet-chemistry synthesis, structure and electrochemistry C. Julien OriginalPaper Pages: 30 - 46
Phase transformation and oxygen permeation properties of partially substituted strontium cobaltite — Influences of B-site partial substitution — H. KusabaG. SakaiN. Yamazoe OriginalPaper Pages: 47 - 56
Decrepitation model for capacity loss during cycling of alloys in rechargeable electrochemical systems R. A. HugginsW. D. Nix OriginalPaper Pages: 57 - 63
A practice of single layer solid oxide fuel cell H. P. HeX. J. HuangL. Q. Chen OriginalPaper Pages: 64 - 69
Effect of B-site substitution of (Li,La)TiO3 perovskites by di-, tri-, tetra- and hexavalent metal ions on the lithium ion conductivity V. ThangaduraiW. Weppner OriginalPaper Pages: 70 - 77
Microstructure of Ni/YSZ cermets according to particle size of precursor powders and their anodic performances in SOFC Jong H. JangJi H. RyuSeung M. Oh OriginalPaper Pages: 86 - 91
Properties of the electrode material LixCoO2 T. BakJ. NowotnyS. Sugihara OriginalPaper Pages: 92 - 106
Mixed alkali effect in a three dimensional structure NASICON N. InoueK. OiwaT. Hayashi OriginalPaper Pages: 107 - 111
PMMA based protonic polymer gel electrolytes S. ChandraS. S. SekhonNarinder Arora OriginalPaper Pages: 112 - 118
Electrochemical promotion of NO reduction by C3H6 and CO on Rh/YSZ catalyst — Electrodes C. PliangosC. RaptisC. G. Vayenas OriginalPaper Pages: 119 - 126
Advanced lithium ion battery materials S. D'AndreaS. PaneroB. Scrosati OriginalPaper Pages: 127 - 132
Mg2Si and MSi2 (M=Ca, Fe) silicon alloys as possible anodes for lithium batteries J. Santos-PeñaT. BrousseD. M. Schleich OriginalPaper Pages: 133 - 138
Investigations of electronic minority charge carrier conductivity in La0.9Sr0.1Ga0.8Mg0.2O2.85 S. SchmidtF. BerckemeyerW. Weppner OriginalPaper Pages: 139 - 144
A model for the spatial distribution and transport properties of defects in mixed ionic-electronic conductors part I: Defect concentration — Pressure relationships and the spatial distribution of defects K. L. DuncanE. D. Wachsman OriginalPaper Pages: 145 - 155
Precursor derived LiMn2O4 thin films as ionic conductor Yumi H. IkuharaYuji IwamotoShin-ichi Hirano OriginalPaper Pages: 156 - 160