| 3 - 8 |
Relaxation Process of Hopping Ionic-Conduction in Lattice-Gas Models
Sato H, Datta A, Ishikawa T |
| 9 - 12 |
Possibility of Laser Field-Induced Superionic Transition
Rakitin A, Kobayashi M, Strekalov VN |
| 13 - 17 |
Effective Charges of Gamma-Cux and Gamma-AgI Based on a Lattice-Distortion Model
Tomoyose T |
| 21 - 25 |
Decay of the Luminescence from Cr3+ Ions in Mixed-Cation Beta-Aluminas
Hattori T, Kobayashi H, Yugami H, Ishigame M |
| 26 - 29 |
Vibrational-Spectra and Phase-Transitions of Silver-Transition Metal Chalcogenides of Argyrodite Family
Ishii M, Wada H |
| 30 - 33 |
Reflection Spectra of Alkali Beta"-Aluminas in Ultraviolet and Vacuum-Ultraviolet Regions
Hattori T, Kanou H, Kawaharada I, Ishigame M, Sata N, Shin S |
| 34 - 39 |
Frequency-Dependence of Ionic-Conductivity in One-Dimensional Ionic Conductors K1.6Mg0.8Ti7.2O16 and K(1.6)A(1.6)Ti(6.4)O(16)
Yoshikado S, Taniguchi I, Watanabe M, Onoda Y, Fujiki Y |
| 40 - 44 |
NMR-Study on Ionic Transport in Silver-Halides
Michihiro Y, Yamanishi T, Kanashiro T, Kishimoto Y |
| 45 - 50 |
NMR-Study of One-Dimensional Ionic Conductor, Sodium Titano-Gallates .1.
Onoda Y, Michiue Y, Watanabe M, Yoshikado S, Ohachi T |
| 53 - 59 |
Ionic-Conduction of Ag+ and Cu+ Ions in Vacancy Defect Spinel Compounds (Min(5)S(8))(1-X)(In2S3)(X)(M=cu or Ag, X-Less-Than-1) in Microwave Regime
Ohmuro Y, Ohachi T, Taniguchi I |
| 60 - 66 |
Structure and Electrical-Properties of Au2S
Ishikawa K, Isonaga T, Wakita S, Suzuki Y |
| 67 - 70 |
A Phase-Transition of AgI at 150 K
Yoshiasa A, Inaba A, Ishii T, Koto K |
| 71 - 74 |
Diffuse-Scattering of Alpha-Rbag4I5 by Neutron-Diffraction Measurement
Sakuma T, Aoyama T, Takahashi H |
| 75 - 80 |
Powder X-Ray-Diffraction of Low-Temperature Phases of Argyrodite-Family Compound Ag7Tas6
Onoda M, Wada H, Yukino K, Ishii M |
| 81 - 83 |
The Structure of Gd2O3 Doped Bi2O3 at a Low-Temperature
Ito Y, Mukoyama T, Mori H, Koto K |
| 84 - 88 |
Polymorphic Transformation of Delta-Bi2O3 Stabilized with Ln(2)O(3) (Ln=sm, Eu, Gd, Tb and Dy) into a New Phase with a C-Type Rare-Earth Oxide-Related Structure
Watanabe A |
| 91 - 97 |
Lithium Ion Conductivity in the Perovskite-Type LiTaO3-SrTiO3 Solid-Solution
Inaguma Y, Matsui Y, Shan YJ, Itoh M, Nakamura T |
| 98 - 105 |
Influence of the Preparation Process on the Cation-Transport Properties of Li(4+x)M(X)Si(1-X)O(4) (M=b, Al) Solid Electrolytes
Masquelier C, Tabuchi M, Takeuchi T, Soizumi W, Kageyama H, Nakamura O |
| 106 - 110 |
Electrical-Conductivity and Ti4+ Ion Substitution Range in NASICON System
Shimazu K, Yamamoto Y, Saito Y, Nakamura O |
| 111 - 115 |
Sodium-Ion Reduction on Na4Zr2Si3O12 During SEM Observation
Nakamura O, Saito Y, Yamada M, Nakagawa M |
| 116 - 119 |
X-Ray-Analysis of Sodium-Ion Distribution in the One-Dimensional Tunnel of Priderite
Michiue Y, Watanabe M |
| 120 - 123 |
The Structure of a High-Temperature Phase in a Cationic Conductor, KAlSi2O6
Ito Y, Kuehner S, Ghose S |
| 124 - 128 |
Ion Conduction in Beta-AgI Single-Crystal at Low-Temperatures
Yoshikado S, Goto H, Murata T, Azuma Y, Taniguchi I, Ito Y, Mellander BE |
| 129 - 134 |
Syntheses, Crystal-Structures and Ionic Conductivities of Orthorhombic Ag2Hfs3 and Cubic Ag4Hf3S8
Wada H, Amiel O, Sato A |
| 137 - 142 |
Electrical-Conductivity of Stabilized Zirconia with Ytterbia and Scandia
Yamamoto O, Arati Y, Takeda Y, Imanishi N, Mizutani Y, Kawai M, Nakamura Y |
| 143 - 146 |
Low-Temperature Heat-Capacity of (ZrO2)(1-X)(Y2O3)(X) (X=0.0776 and 0.0970) and Low-Energy Excitations
Shirakami T, Atake T, Mori T, Yamamura H |
| 147 - 151 |
Effects of Rare-Earth Cations Doped for La Site on the Oxide Ionic-Conductivity of Lagao3-Based Perovskite-Type Oxide
Ishihara T, Matsuda H, Takita Y |
| 152 - 157 |
Chloride-Ion Conductor Ch3Nh3Gecl3 Studied by Rietveld Analysis of X-Ray-Diffraction and Cl-35 NMR
Yamada K, Isobe K, Tsuyama E, Okuda T, Furukawa Y |
| 161 - 170 |
Perovskite Solid Electrolytes - Structure, Transport-Properties and Fuel-Cell Applications
Bonanos N, Knight KS, Ellis B |
| 171 - 176 |
Proton Diffusivity in Srzro3-Sc3+ Single-Crystals Studied by Infrared-Absorption Spectroscopy
Yugami H, Shibayama Y, Hattori T, Ishigame M |
| 177 - 182 |
Electrochemical Studies on Ionic-Conduction in Ca-Doped Baceo3
Iwahara H, Mori T, Hibino T |
| 183 - 187 |
Electrical-Conduction in Batho3 Doped with Y2O3
Tsuji T, Miyajima N, Ochida M |
| 188 - 191 |
Increase in Thermal-Stability of MgO, CaO Added Nh4Nbwo6 Solid-Electrolyte
Ogura H, Ito Y, Kurajo T, Tanaka Y, Shirogami T |
| 195 - 200 |
Oxygen Semipermeability of Mixed-Conductive Oxide Thick-Film Prepared by Slip Casting
Miura N, Okamoto Y, Tamaki J, Morinaga K, Yamazoe N |
| 201 - 207 |
Experimental-Determination of Oxygen Permeation Flux Through Bulk and Grain-Boundary of La0.7Ca0.3Cro3
Kawada T, Horita T, Sakai N, Yokokawa H, Dokiya M |
| 208 - 211 |
Measurement of Oxygen Permeability in CeO2 Doped Csz
Nigara Y, Mizusaki J, Ishigame M |
| 215 - 219 |
Structure and Lithium Insertion Characteristics of Licrmno4
Kano S, Sato M |
| 220 - 226 |
Preparation of Afeo(2) (A=li, Na) by Hydrothermal Method
Tabuchi M, Ado K, Sakaebe H, Masquelier C, Kageyama H, Nakamura O |
| 227 - 233 |
Structure and Physical-Properties of Lithium Iron-Oxide, Lifeo2, Synthesized by Ionic Exchange-Reaction
Shirane T, Kanno R, Kawamoto Y, Takeda Y, Takano M, Kamiyama T, Izumi F |
| 234 - 238 |
Electrochemical Properties of Feocl Derivatives Prepared by the Reaction of Feocl Intercalated with 2,2-Bithiophene and H2O
Sakaebe H, Higuchi S, Kanamura K, Fujimoto H, Takehara Z |
| 239 - 244 |
Preparation and Lithium Intercalation of a New Vanadium-Oxide with a 2-Dimensional Structure
Hibino M, Ugaji M, Kishimoto A, Kudo T |
| 245 - 251 |
The Effect of Electrostatic Potentials on Lithium Insertion for Perovskite Oxides
Shan YJ, Inaguma Y, Itoh M |
| 252 - 255 |
Characterization of Oxygen-Deficient Phases Appearing in Reduction of the Perovskite-Type LaNiO3 to La2Ni2O5
Moriga T, Usaka O, Nakabayashi I, Kinouchi T, Kikkawa S, Kanamaru F |
| 259 - 263 |
Chemical Scaling of the Ionic-Conductivity in AgI-Ag2O-Mxo(Y) Glasses
Aniya M |
| 264 - 272 |
Neutron-Scattering Studies on Superionic AgI-CsI-(CH3)(4)Ni Glasses
Kawamura J, Arakawa K, Kamiyama T, Nakamura Y |
| 273 - 278 |
Mixed Anion Effect of Silver Ion Conducting Glasses in the Systems AgI-Ag2Moo4-Ag3Po4 and AgI-Ag2Moo4-Ag2Po3.5 and Structural Study by P-31 MAS-NMR
Machida N, Kawachi M, Ueda A, Shigematsu T, Nakanishi N, Masanari T, Minami T |
| 279 - 283 |
Stabilization Process of Alpha-AgI Particles Dispersed in Glass Matrices at Room-Temperature
Saito T, Tatsumisago M, Torata N, Minami T |
| 284 - 287 |
Electrochemical-Behavior of Li(X)Mo(2) (M=co, Ni) in All-Solid-State Cells Using a Glass Electrolyte
Takada K, Aotani N, Iwamoto K, Kondo S |
| 288 - 291 |
Application of Li3Po4-Li2S-Sis2 Glass to the Solid-State Secondary Batteries
Iwamoto K, Aotani N, Takada K, Kondo S |
| 295 - 299 |
Ionic-Conductivity of Poly(Ethylene Glycol)-Licf3So3-Ultrafine SiO2, Composite Electrolytes - Effects of Addition of the Surfactant Lithium Dodecyl-Sulfate
Matsuo Y, Kuwano J |
| 300 - 305 |
Ionic-Conductivity of Poly(Ethylene Oxide) Having Charges on the Chain-End
Ito K, Ohno H |
| 306 - 312 |
Effects of Network Structures and Incorporated Salt Species on Electrochemical Properties of Polyether-Based Polymer Electrolytes
Watanabe M, Nishimoto A |
| 315 - 318 |
Mechanism of Surface Conduction in Alkali-Halides
Fukai A, Asechi H, Nakagawa K |
| 319 - 324 |
Orientation Mechanism of Beta-AgI Grains Precipitated Within Micropores of Porous Alumina
Nagai M, Nishino T |
| 325 - 330 |
Effect of Content of BaTiO3, Surface Cubic Layer on the Ionic-Conductivity Enhancement in Composite Solid Electrolytes
Takeuchi T, Ado K, Saito Y, Tabuchi M, Masquelier C, Nakamura O |
| 333 - 337 |
Application of Hydrogen Sensor Using Proton Conductive Ceramics as a Solid-Electrolyte to Aluminum Casting Industries
Yajima T, Koide K, Takai H, Fukatsu N, Iwahara H |
| 338 - 343 |
Stabilized Zirconia-Based NOx Sensor Operative at High-Temperature
Kurosawa H, Yan YT, Miura N, Yamazoe N |
| 344 - 348 |
Detection of Carbon-Monoxide by Using Zirconia Oxygen Sensor
Can ZY, Narita H, Mizusaki J, Tagawa H |
| 349 - 353 |
Solid-State CO2 Sensor Using an Electrolyte in the System Li2CO3-Li3Po4-Al2O3
Narita H, Can ZY, Mizusaki J, Tagawa H |
| 354 - 357 |
Carbon-Dioxide Sensor Using Solid Electrolytes with Zirconium-Phosphate Framework .2. Properties of the CO2 Gas Sensor Using Mg1.15Zr4P5.7Si0.3O24 as Electrolyte
Ikeda S, Kondo T, Kato S, Ito K, Nomura K, Fujita Y |
| 358 - 365 |
Measuring Apparatus for Hydrogen Permeation Using Oxide Proton Conductor
Kurita N, Otsuka K, Fukatsu N, Ohashi T |
| 366 - 370 |
Hydrogen-Production from Direct Water-Splitting at High-Temperatures Using a ZrO2-TiO2-Y2O3 Membrane
Naito H, Arashi H |
| 371 - 375 |
Oxidative Reforming of Methane Using Solid Oxide Fuel-Cell with Lagao3-Based Electrolyte
Ishihara T, Hiei Y, Takita Y |
| 376 - 381 |
Catalytic Property of the Hollandite-Type 1-D Ion-Conductors - Selective Reduction of NOx
Watanabe M, Mori T, Yamauchi S, Yamamura H |
| VIII - VIII |
Proceedings of the 20th Commemorative Symposium on Solid-State Ionics in Japan - Tokyo, Japan, November 1-2, 1994
Kudo T, Iwahara H |
