| 1 - 4 |
Oxygen content and thermodynamic stability of YBaCo4O7 +/- delta
Tsvetkov DS, Pralong V, Tsvetkova NS, Zuev AY |
| 5 - 10 |
A theoretical study of how C2-substitution affects alkaline stability in imidazolium-based anion exchange membranes
Tsuchitani R, Nakanishi H, Shishitani H, Yamaguchi S, Tanaka H, Kasai H |
| 11 - 19 |
Bifunctional ionic liquid in conductive biopolymer based on chitosan for electrochemical devices application
Shamsudin IJ, Ahmad A, Hassan NH, Kaddami H |
| 20 - 25 |
Ion electromigration in CdTe Schottky metal-semiconductor-metal structure
Elhadidy H, Grill R, Franc J, Sik O, Moravec P, Schneeweiss O |
| 26 - 31 |
SrTi0.65Fe0.35O3 nanofibers for oxygen sensing
Song JL, Guo X |
| 32 - 37 |
La2-xPrxNiO4+delta as suitable cathodes for metal supported SOFCs
Vibhu V, Rougier A, Nicollet C, Flura A, Grenier JC, Bassat JM |
| 38 - 42 |
Reversible transformation from amorphouse Na3Fe3(SO4)(2)(OH)(6) to crystallized NaFe3(SO4)(2)(OH)(6) Jarosite-type hydroxysulfate
Gnanavel M, Lebedev OI, Bazin P, Raveau B, Pralong V |
| 43 - 48 |
Structure and electrochemical behaviour of LiNi0.4Mn0.4Co0.2O2 as cathode material for lithium ion batteries
Tan TQ, Idris MS, Osman RAM, Reddy MV, Chowdari BVR |
| 49 - 57 |
Formation and evaluation of interpenetrating networks of anion exchange membranes based on quaternized chitosan and copolymer poly(acrylamide)/polystyrene
Wang JL, He RH |
| 58 - 64 |
Polyphosphazene-based copolymers containing pendant alkylsulfonic acid groups as proton exchange membranes
Fu FY, Xu HL, Dong Y, He ML, Luo TW, Zhang YX, Hao X, Ma T, Zhu CJ |
| 65 - 68 |
Li1.5Al0.5Ge1.5(PO4)(3) Li-ion conductor prepared by melt-quench and low temperature pressing
Yan BG, Zhu YQ, Pan F, Liu JC, Lu L |
| 69 - 77 |
Improved protonic conductivity and Vickers hardness for lanthanum tungstate with potassium doping (La,K)(28-y)W4+yO54+delta
Liu H, Wen ZY, Zhang JC, Han JD, Chi XW |
| 78 - 84 |
Modeling separator membranes physical characteristics for optimized lithium ion battery performance
Miranda D, Costa CM, Almeida AM, Lanceros-Mendez S |
| 85 - 90 |
Surface-modified Li[Li0.2Ni0.17Co0.07Mn0.56]O-2 narioparticles with MgF2 as cathode for Li-ion battery
Sun SW, Wan N, Wu Q, Zhang XP, Pan D, Bai Y, Lu X |
| 91 - 97 |
Electrochemically influenced cation inter-diffusion and Co3O4 formation on La0.6Sr0.4CoO3 infiltrated into SOFC cathodes
Song XY, Lee S, Chen Y, Gerdes K |
| 98 - 105 |
Interphase formation on lithium solid electrolytes-An in situ approach to study interfacial reactions by photoelectron spectroscopy
Wenzel S, Leichtweiss T, Kruger D, Sann J, Janek J |
| 106 - 113 |
Study of sodium manganese fluorides as positive electrodes for Na-ion batteries
Nava-Avendano J, Arroyo-de Dompablo ME, Frontera C, Ayllon JA, Palacin MR |
| 114 - 119 |
The proton conductivity in benzimidazolium azelate under moderate pressure
Maslowski T, Drzewinski A, Lawniczak P, Zdanowska-Fraczek M, Ulner J |
| 120 - 132 |
Gd- and Pr-based double perovskite cobaltites as oxygen electrodes for proton ceramic fuel cells and electrolyser cells
Strandbakke R, Cherepanov VA, Zuev AY, Tsvetkov DS, Argirusis C, Sourkouni G, Prunte S, Norby T |
| 133 - 137 |
High surface area, mesoporous carbon for low-polarization, catalyst-free lithium oxygen battery
Ming J, Park JB, Kim HS, Yoon CS, Elia GA, Scrosati B, Sun YK, Hassoun J |
| 138 - 143 |
Gamma-MnS/reduced graphene oxide nanocomposites with great lithium storage capacity
Ren YR, Wang JW, Huang XB, Ding JN |
| 144 - 151 |
Synthesis and characterization of novel anion exchange membranes containing bi-imidazolium-based ionic liquid for alkaline fuel cells
Wang JL, Wang LL, Feng RJ, Zhang Y |
| 152 - 156 |
Electrical conductivity of Zn-doped high temperature proton conductor LaNbO4
Cao Y, Tan Y, Yan D, Chi B, Pu J, Jian L |
| 157 - 165 |
Aliovalent-substitution defect chemistry, crystalline-glassy phase separation and ionic conductivity in fresnoite Ba2TiSi2O8-based materials
Wang QC, Liu SB, Wang XM, Fu H, Xu JG, Lu FQ, Veron E, Allix M, Porcher F, Kuang XJ |
| 166 - 171 |
A functional carbon layer-coated separator for high performance lithium sulfur batteries
Zhang ZY, Lai YQ, Zhang ZA, Li J |
| 172 - 176 |
Transparent cubic garnet-type solid electrolyte of Al2O3-doped Li7La3Zr2O12
Suzuki Y, Kami K, Watanabe K, Watanabe A, Saito N, Ohnishi T, Takada K, Sudo R, Imanishi N |
| 177 - 180 |
Ionic conductivity enhancement in PEO:CuSCN solid polymer electrolyte by the incorporation of nickel-chloride
Vignarooban K, Dissanayake MAKL, Albinsson I, Mellander BE |
| 181 - 185 |
Influence of sintering methods on microstructure and ionic conductivity of La1.95Sr0.05Zr2O6.975 synthesized by co-precipitation
Huo D, Gosset D, Simeone D, Baldinozzi G, Khodja H, Villeroy B, Surble S |
| 186 - 191 |
Enhanced properties of olivine LiFePO4/graphene co-doped with Nb5+ and Ti4+ by a sol-gel method
Tian Z, Zhou ZF, Liu SS, Ye F, Yao SJ |
| 192 - 197 |
A duplex B''-Al2O3 solid electrolyte consisting of a thin dense layer and a porous substrate
Kim JY, Canfield NL, Bonnett JF, Sprenkle VL, Jung K, Hong I |
| 198 - 202 |
Intercalated SiOC/graphene composites as anode material for li-ion batteries
Ren YR, Yang B, Huang XB, Chu FQ, Qiu JH, Ding JN |
| 203 - 208 |
Spray drying-assisted synthesis of hollow spherical Li2FeSiO4/C particles with high performance for Li-ion batteries
Huang XB, You YY, Ren YR, Wang HY, Chen YD, Ding X, Liu BP, Zhou SB, Chu FQ |
| 209 - 216 |
The effect of preparation method on the proton conductivity of indium doped tin pyrophosphates
Anfimova T, Lie-Andersen T, Jensen EP, Prag CB, Nielsen UG, Sorensen DR, Skou EM, Christensen E, Bjerrum NJ, Li Q |
| 217 - 221 |
Field-assisted sintering of Li1.3Al0.3Ti1.7(PO4)(3) solid-state electrolyte
Rosenberger A, Gao Y, Stanciu L |
| 222 - 227 |
Characteristics of discharge products in all-solid-state Li-air batteries
Suzuki Y, Kami K, Watanabe K, Imanishi N |
| 228 - 232 |
Characterization of the Li-ionic conductivity of La(2/3-x)Li3xTiO3 ceramics used for all-solid-state batteries
Trong LD, Thao TT, Dinh NN |
| 233 - 238 |
gamma-Phase stabilized Bi4BaxV2-xO11- (delta)(0.0 <= x <= 020): Structural, thermal and conducting properties
Gupta S, Singh K |
| 239 - 244 |
Lithium silicate-lithium phosphate (xLi(4)SiO(4-)(1-x)Li3PO4) coating on lithium nickel manganese oxide (LiNi0.7Mn0.3O2) with a layered structure
Kim DJ, Ko HS, Lee JW |
| 245 - 253 |
Synthesis and characterization of nanocrystalline A(6)Sb(4)ZrO(18) (A = Ca, Sr and Ba) functional ceramics
George A, Thomas JK, John A, Solomon S |
| 254 - 259 |
The preparation of porous proton exchange membranes via in situ polymerization
Li WZ, Gao C, Guo JY, Ren YZ, Deng XW, Liu Y |
| 260 - 267 |
Effects of potassium iodide (KI) on crystallinity, thermal stability, and electrical properties of polymer blend electrolytes (PVC/PEO:KI)
Nadirnicherla R, Kalla R, Muchakayala R, Guo X |
| 268 - 274 |
A new class of lithium ion conductors with tunable structures and compositions: Quaternary diamond-like thiogermanates
Brant JA, Devlin KP, Bischoff C, Watson D, Martin SW, Gross MD, Aitken JA |
| 275 - 280 |
Protons in piezoelectric langatate; La3Ga5.5Ta0.5O14
Bjorheim TS, Shanmugappirabu V, Haugsrud R, Norby TE |
| 281 - 286 |
Na3V2(PO4)(3)/C nanorods as advanced cathode material for sodium ion batteries
Li H, Bai Y, Wu F, Ni Q, Wu C |
