| 1 - 3 |
12th International Symposium on Polymer Electrolytes (ISPE-12) Foreword
Di Noto V |
| 4 - 13 |
Polymer electrolytes: Present, past and future
Di Noto V, Lavina S, Giffin GA, Negro E, Scrosati B |
| 14 - 19 |
Single-ion polymer electrolytes based on a delocalized polyanion for lithium batteries
Meziane R, Bonnet JP, Courty M, Djellab K, Armand M |
| 20 - 26 |
Poly(oxyethylene) electrolytes based on lithium nitrophenyl sulfonamide and hexanitrodiphenylamide
Paillard E, Alloin F, Cointeaux L, Iojoiu C, Sanchez JY |
| 27 - 35 |
Conductivity enhancement induced by casting of polymer electrolytes under a magnetic field
Kovarsky R, Golodnitsky D, Peled E, Khatun S, Stallworth PE, Greenbaum S, Greenbaum A |
| 36 - 39 |
Utilization of carbon dioxide for polymer electrolytes [II]: Synthesis of alternating copolymers with glycidyl ethers as novel ion-conductive polymers
Nakamura M, Tominaga Y |
| 40 - 45 |
A self-standing, UV-cured polymer networks-reinforced plastic crystal composite electrolyte for a lithium-ion battery
Ha HJ, Kwon YH, Kim JY, Lee SY |
| 46 - 51 |
Poly(vinylpyridine-co-styrene) based in situ cross-linked gel polymer electrolyte for lithium-ion polymer batteries
Oh S, Kim DW, Lee C, Lee MH, Kang Y |
| 52 - 57 |
Preliminary characterisation of LiAsF6 hybrid polymer electrolytes for electrochromic devices
Rodrigues LC, Silva MM, Smith MJ, Goncalves A, Fortunato E |
| 58 - 65 |
The effect of additive of Lewis acid type on lithium-gel electrolyte characteristics
Perzyna K, Borkowska R, Syzdek J, Zalewska A, Wieczorek W |
| 66 - 73 |
Synthesis and characterization of new trifluoroalkoxyborates lithium salts of ionic liquid properties
Zygadlo-Monikowska E, Florjanczyk Z, Ostrowska J, Boltromiuk P, Frydrych J, Sadurski W, Langwald N |
| 74 - 90 |
Bis(trifluoromethylsulfonyl)amide based "polymeric ionic liquids": Synthesis, purification and peculiarities of structure-properties relationships
Shaplov AS, Lozinskaya EI, Ponkratov DO, Malyshkina IA, Vidal F, Aubert PH, Okatova OV, Pavlov GM, Komarova LI, Wandrey C, Vygodskii YS |
| 91 - 97 |
Preparation and characterization of magnesium ion gel polymer electrolytes for application in electrical double layer capacitors
Asmara SN, Kufian MZ, Majid SR, Arof AK |
| 98 - 103 |
Poly(vinylidene fluoride)-based macroporous separators for supercapacitors
Karabelli D, Lepretre JC, Alloin F, Sanchez JY |
| 104 - 111 |
Novel cellulose reinforcement for polymer electrolyte membranes with outstanding mechanical properties
Nair JR, Chiappone A, Gerbaldi C, Ijeri VS, Zeno E, Bongiovanni R, Bodoardo S, Penazzi N |
| 112 - 122 |
Iodide-conducting polymer electrolytes based on poly-ethylene glycol and MgI2: Synthesis and structural characterization
Vittadello M, Waxman DI, Sideris PJ, Gan ZH, Vezzu K, Negro E, Safari A, Greenbaum SG, Di Noto V |
| 123 - 131 |
Effect of lithium salt concentrations on blended 49% poly(methyl methacrylate) grafted natural rubber and poly(methyl methacrylate) based solid polymer electrolyte
Su'ait MS, Ahmad A, Hamzah H, Rahman MYA |
| 132 - 138 |
Electrochemical preparation of over-oxidized polypyrrole/multi-walled carbon nanotube composite on glassy carbon electrode and its application in epinephrine determination
Shahrokhian S, Saberi RS |
| 139 - 146 |
Correlation between ionic and molecular dynamics in the liquid state of polyethylene oxide/lithium perchlorate complexes
Yoshida K, Manabe H, Takahashi Y, Furukawa T |
| 147 - 152 |
Extending the compensated Arrhenius formalism to concentrated alcohol electrolytes: Arrhenius vs. non-Arrhenius behavior
Fleshman AM, Petrowsky M, Jernigen JD, Bokalawela RSP, Johnson MB, Frech R |
| 153 - 159 |
The role of the cation aliphatic side chain length in piperidinium bis(trifluoromethansulfonyl)imide ionic liquids
Montanino M, Carewska M, Alessandrini F, Passerini S, Appetecchi GB |
| 160 - 164 |
Effects of pressure, temperature and volume on the electrical conductivity of polymer electrolytes
Bendler JT, Fontanella JJ, Shlesinger MF, Wintersgill MC |
| 165 - 171 |
Polymer chain organization in tensile-stretched poly(ethylene oxide)-based polymer electrolytes
Burba CM, Woods L, Millar SY, Pallie J |
| 172 - 175 |
Effect of time and temperature exposition in the crystallinity degree of sulfonated poly-{styrene acrylic acid} (PSAA-S)
Duarte GW, Silveira FZ, Becker EB, Silva L, Naspolini AM, Consenso EC, Paula MMS, Fiori MA |
| 176 - 179 |
Utilization of carbon dioxide for polymer electrolytes [I]: Effect of supercritical treatment conditions on ionic conduction in amorphous polyether/salt mixtures
Oe Y, Tominaga Y |
| 180 - 186 |
Properties of poly(vinylidene fluoride-co-hexafluoropropylene) gel electrolytes containing modified inorganic Al2O3 and TiO2 filler, complexed with different lithium salts
Sarnowska A, Polska I, Niedzicki L, Marcinek M, Zalewska A |
| 187 - 191 |
Magnetic resonance and conductivity study of a gelatin-based polymer gel electrolyte
Pawlicka A, Mattos RI, Lima JF, Tambelli CE, Magon CJ, Donoso JP |
| 192 - 200 |
Broadband dielectric and conductivity spectroscopy of Li-ion conducting three-dimensional hybrid inorganic-organic networks as polymer electrolytes based on poly(ethylene glycol) 400, Zr and Al nodes
Di Noto V, Vittadello M, Yoshida K, Lavina S, Negro E, Furukawa T |
| 201 - 206 |
Ion conduction of branched polyethyleneimine-lithium bis(trifluoromethylsulfonyl) imide electrolytes
Pehlivan IB, Georen P, Marsal R, Granqvist CG, Niklasson GA |
| 207 - 211 |
Electrical and physical studies on 49% methyl-grafted natural rubber-based composite polymer gel electrolytes
Kamisan AS, Kudin TIT, Ali AMM, Yahya MZA |
| 212 - 219 |
Glass transitions and ionic conductivity in a poly(butadiene-acrylonitrile)-LiAsF6 system
Yaroslavtseva TV, Bushkova OV |
| 220 - 227 |
Annealing protocols for pyrrolidinium bis(trifluoromethylsulfonyl)imide type ionic liquids
Furlani M, Albinsson I, Mellander BE, Appetecchi GB, Passerini S |
| 228 - 236 |
Branched polyethylene/poly(ethylene oxide) as a host matrix for Li-ion battery electrolytes: A molecular dynamics study
Brandell D, Priimagi P, Kasemagi H, Aabloo A |
| 237 - 243 |
Modelling polymer electrolytes for 3D-microbatteries using finite element analysis
Zadin V, Brandell D |
| 244 - 249 |
New crystalline NaAsF6-PEO8 complex: A Density Functional Theory study
Liivat A |
| 250 - 256 |
Multi-physic 3D dynamic modelling of polymer membranes with a proper generalized decomposition model reduction approach
Alotto P, Guarnieri M, Moro F, Stella A |
| 257 - 269 |
Interplay between structural and electrochemical properties of Pt-Rh carbon nitride electrocatalysts for the oxygen reduction reaction
Di Noto V, Negro E, Vezzu K, Toniolo L, Pace G |
| 270 - 276 |
Metal-based flexible TiO2 photoanode with titanium oxide nanotubes as the underlayer for enhancement of performance of a dye-sensitized solar cell
Lin LY, Yeh MH, Lee CP, Chen YH, Vittal R, Ho KC |
| 277 - 284 |
Conducting polymer-based counter electrode for a quantum-dot-sensitized solar cell (QDSSC) with a polysulfide electrolyte
Yeh MH, Lee CP, Chou CY, Lin LY, Wei HY, Chu CW, Vittal R, Ho KC |
| 285 - 289 |
Synthesis of acetyl imidazolium-based electyrolytes and application for dye-sensitized solar cells
Seo DW, Parvez MK, Lee SH, Kim JH, Kim SR, Lim YD, Kim WG |
| 290 - 296 |
Determination of tryptophan using electrode modified with poly(9-aminoacridine) functionalized multi-walled carbon nanotubes
Guney S, Yildiz G |
