| 169 - 173 |
Polymer Electrolytes Based on Polysilane Comb Polymers
Lyons LJ, Southworth BA, Stam D, Yuan CH, West R |
| 175 - 181 |
High-Temperature O-17 NMR as a Probe of Electron Localization and Structure in Transition-Metal Oxides
Adler SB, Reimer JA |
| 183 - 190 |
Impedance-Spectroscopy Analysis of Ba5Li2Ti2Nb8O30 Ferroelectric Ceramics
Dong M, Reau JM, Ravez J |
| 191 - 201 |
Experimental Limitations in Impedance Spectroscopy .1. Simulation of Reference Electrode Artifacts in 3-Point Measurements
Hsieh G, Ford SJ, Mason TO, Pederson LR |
| 203 - 212 |
Experimental Limitations in Impedance Spectroscopy .2. Electrode Artifacts in 3-Point Measurements on Pt/YSZ
Hsieh G, Mason TO, Pederson LR |
| 213 - 219 |
Polarized Electrochemical Vapor-Deposition (Pevd) - A New Technique for Depositing Thin Ionic Conducting Films
Tang EZ, Etsell TH |
| 221 - 232 |
Review of the Limitation of the Hebb-Wagner Polarization Method for Measuring Partial Conductivities in Mixed Ionic Electronic Conductors
Riess I |
| 233 - 238 |
Sodium-Ion Sensitive Electrode Based on a Molybdenum Oxide Bronze
Shuk P, Greenblatt M, Ramanujachary KV |
| 239 - 241 |
Activation-Energy for Electrical-Conduction of Y2O3-Stabilized ZrO2 Containing 8Mol-Percent Y2O3
Suzuki Y |
| 243 - 248 |
Oxide-Ion Conductivity in Bi(2)W(1-X)Me(X)O(6-X/2) (Me=nb,Ta)
Baux N, Vannier RN, Mairesse G, Nowogrocki G |
| 249 - 256 |
Temperature-Dependence of Ionic-Conductivity in (1-X)ZrO2-(X-Y)Sc2O3-Yyb(2)O(3) Electrolyte Material
Chiba R, Ishii T, Yoshimura F |
| 257 - 264 |
Potentiometric Gaseous Sulfur Sensor-Based on Silver Beta-Alumina Solid-Electrolyte
Kirchnerova J, Bale CW, Skeaff JM |
| 265 - 271 |
Structural Characterization and Electrical Behavior of Lani1-Xsbxo3 (O-Less-Than-or-Equal-to-X-Less-Than-or-Equal-to-1/3) Perovskites
Alvarez I, Veiga ML, Pico C |
| 273 - 278 |
Bi4V2O11 and Related-Compounds as Positive Electrode Materials for Lithium Rechargeable Batteries
Dedompablo ME, Garciaalvarado F, Moran E |
| 279 - 284 |
The Mechanism of Lithium Ion-Transport in Polyacrylonitrile-Based Polymer Electrolytes
Huang BY, Wang ZX, Chen LQ, Xue RJ, Wang FS |
| 285 - 288 |
Molecular-Dynamics Study of Li2Sis3 Glass
Seshasayee M, Muruganandam K |
| 289 - 294 |
Electrochemical-Behavior of Alpha-Pbo2 and Beta-Pbo2 .2. Lithium Diffusion from Nonaqueous Electrolyte
Chelali N, Zerroual L, Hammouche A, Kahoul A, Guitton J |
| 295 - 301 |
Ionic-Conductivity of NASICON-Type Lihf2(PO4)(3) - A Reexamination
Martinezjuarez A, Iglesias JE, Rojo JM |
| 303 - 306 |
Studies on the Lithium Ion Conduction in Ca0.95Li0.10Wo4 Using Cold Neutron Radiography
Kamata M, Esaka T, Takami K, Takai S, Fujine S, Yoneda K, Kanda K |
| 307 - 314 |
Phenanthroline Intercalation into Molybdenum-Disulfide
Golub AS, Shumilova IB, Novikov YN, Mansot JL, Danot M |
| 315 - 322 |
Phase-Diagram and Electrical-Properties, Defect Concentration in Oxides and Sulfides of 3D Metals
Stoklosa A, Zajecki J |
| 323 - 330 |
Mixed-Alkali Metal Sulfate Proton Conductors - The Structure of Cs0.9Rb0.1Hso4 at Room-Temperature
Merinov BV, Jones DJ, Roziere J, Mhiri T |
