| 1 - 12 |
Diffusion, conductivity and DSC studies of a polymer gel electrolyte composed of cross-linked PEO, gamma-butyrolactone and LIBF4
Hayamizu K, Aihara Y, Arai S, Price WS |
| 13 - 23 |
An NMR investigation of the formation of the crystalline complex (PEO)(3)NaClO4
Sawers LJM, Tunstall DP, Bruce PG |
| 25 - 30 |
Structure and Na+ ion conductivity inside double phosphates of Na8-2xM4+x2+(P2O7)(4) formulation (M = Mn, Co and Ni)
Dridi N, Boukhari A, Reau JM, Holt EM |
| 31 - 40 |
Conductivity of long-chain silver carboxylates and their thermal decomposition products
Uvarov NF, Burleva LP, Mizen MB, Whitcomb DR, Zou C |
| 41 - 45 |
Calcium doping into YBa2Cu3Oy ceramics by the SOED method
Matsumoto Y, Nishimori T, Yamamoto H, Nishimura K, Kamada K, Ogata A |
| 47 - 51 |
Ionic conductivity of fluorite-structured solid solution Y0.8Nb0.2O1.7
Lee JH, Yashima M, Yoshimura M |
| 53 - 57 |
A convenient hydrothermal route for the synthesis of MxVOPO4 center dot yH(2)O (M = Na and K)
Ayyappan P, Ramanan A, Joy PA, Pring A |
| 59 - 65 |
Thermally activated two-level systems in superionic conductors
Abdulchalikova NR, Aliev AE, Krivorotov VF, Khabibullaev PK |
| 67 - 71 |
Solid oxide fuel cells of ceria doped with gadolinium and praseodymium
Maffei N, Kuriakose AK |
| 73 - 79 |
Nonstoichiometry of Ce0.9Gd0.1O1.95-x
Wang SR, Inaba H, Tagawa H, Dokiya M, Hashimoto T |
| 81 - 88 |
Comparison of frequency-domain and temperature-domain electrical responses of ion-conducting glass
Doi A |
| 89 - 103 |
Characterization of xCuI center dot(50-x)AgI center dot yCu(2)MoO(4)center dot(50-y)CuPO3 glasses
Chowdari BVR, Tan KL, Ling F |
| 105 - 110 |
Significance of interfaces in solid-state cells with porous electrodes of mixed ionic-electronic conductors
Liu ML, Wu ZL |
| 111 - 116 |
Conductivity studies on AgSbO3 channel structure by impedance spectroscopy
Wiggers H, Simon U, Schon G |
| 117 - 122 |
Evidence for change of ion transport mechanism with pressure in NH4NbWO6
Hinrichs R, Tomandl G |
| 123 - 133 |
'Chimie douce' synthesis and electrochemical properties of amorphous and crystallized LiNiVO4 vs. Li
Orsini F, Baudrin E, Denis S, Dupont L, Touboul M, Guyomard D, Piffard Y, Tarascon JM |
| 135 - 144 |
Li-7-NMR study of carbon fiber and graphite anodes for lithium ion batteries
Imanishi N, Kumai K, Kokugan H, Takeda Y, Yamamoto O |
| 145 - 152 |
Structural properties of Li1+3V3O8 upon lithium insertion at ambient and high temperature
Kawakita J, Katayama Y, Miura T, Kishi T |
| 153 - 160 |
Dependence of the lithium ionic conductivity on the B-site ion substitution in (Li0.5La0.5)Ti1-xMxO3 (M = Sn, Zr, Mn, Ge)
Chung HT, Kim JG, Kim HG |
| 161 - 171 |
Novel waterborne polyurethane based electrolytes for lithium batteries - (II) the effect of adding LiCF3SO3-PC
Cheng YT, Wen TC |
