| 1 - 4 |
Foreword
Forsyth M, MacFarlane D, Pringle J |
| 5 - 12 |
Li+ Ion Transport in Polymer Electrolytes Based on a Glyme-Li Salt Solvate Ionic Liquid
Kido R, Ueno K, Iwata K, Kitazawa Y, Imaizumi S, Mandai T, Dokko K, Watanabe M |
| 13 - 17 |
Antistatic effects of ionic liquids for polyether-based polyurethanes
Tsurumaki A, Tajima S, Iwata T, Scrosati B, Ohno H |
| 18 - 34 |
Recent Advances in Innovative Polymer Electrolytes based on Poly (ionic liquid)s
Shaplov AS, Marcilla R, Mecerreyes D |
| 35 - 41 |
Li-7 nuclear magnetic resonance studies of dynamics in a ternary gel polymer electrolyte based on polymeric ionic liquids
Gouverneur M, Jeremias S, Schonhoff M |
| 42 - 46 |
Computational modelling of polymer electrolytes: What do 30 years of research efforts provide us today?
Johansson P |
| 47 - 54 |
Molecular Dynamics Modelling of Block-Copolymer Electrolytes with High t(+) Values
Kasemagi H, Ollikainen M, Brandell D, Aabloo A |
| 55 - 61 |
Molecular Volume Effects on the Dynamics of Polymerized Ionic Liquids and their Monomers
Choi UH, Mittal A, Price TL, Lee M, Gibson HW, Runt J, Colby RH |
| 62 - 67 |
Sodium ion dynamics in a sulfonate based ionomer system studied by Na-23 solid-state nuclear magnetic resonance and impedance spectroscopy
Pope CR, Romanenko K, MacFarlane DR, Forsyth M, O'Dell LA |
| 68 - 73 |
TRANSPORT MECHANISM STUDIES OF CHITOSAN ELECTROLYTE SYSTEMS
Navaratnam S, Ramesh K, Ramesh S, Sanusi A, Basirun WJ, Arof AK |
| 74 - 79 |
Ionic conductivity and molecular dynamic behavior in supramolecular ionic networks; the effect of lithium salt addition
Aboudzadeh MA, Zhu HJ, Pozo-Gonzalo C, Shaplov AS, Mecerreyes D, Forsyth M |
| 80 - 86 |
Characterisation of ion transport in sulfonate based ionomer systems containing lithium and quaternary ammonium cations
Oza YV, MacFarlane DR, Forsyth M, O'Dell LA |
| 87 - 95 |
Flexible Electrodes and Electrolytes for Energy Storage
Wang CY, Wallace GG |
| 96 - 103 |
Graft copolymer electrolytes for high temperature Li-battery applications, using poly(methyl methacrylate) grafted poly(ethylene glycol)methyl ether methacrylate and lithium bis(trifluoromethanesulfonimide)
Bergman M, Bergfelt A, Sun B, Bowden T, Brandell D, Johansson P |
| 104 - 112 |
Synthesis and characterization of lithium-salt complexes with difluoroalkoxyborates for application as lithium electrolytes
Zygadlo-Monikowska E, Florjanczyk Z, Ostrowska J, Tomaszewska A, Boltromiuk P, Langwald N, Golodnitsky D, Peled E |
| 113 - 123 |
Single-Ion-Conducting Nanocomposite Polymer Electrolytes for Lithium Batteries Based on Lithiated-Fluorinated-Iron Oxide and Poly (ethylene glycol) 400
Bertasi F, Negro E, Vezzu K, Nawn G, Pagot G, Di Noto V |
| 124 - 133 |
Characterization of NaX (X: TFSI, FSI) - PEO based solid polymer electrolytes for sodium batteries
Boschin A, Johansson P |
| 134 - 140 |
A QuaternaryPoly(ethylene carbonate)-Lithium Bis (trifluoromethanesulfonyl)imide-Ionic Liquid-Silica Fiber Composite Polymer Electrolyte for Lithium Batteries
Kimura K, Matsumoto H, Hassoun J, Panero S, Scrosati B, Tominaga Y |
| 141 - 150 |
Functional binders as graphite exfoliation suppressants in aggressive electrolytes for lithium-ion batteries
Jeschull F, Lacey MJ, Brandell D |
| 151 - 161 |
Polymer electrolytes and perovskites: lights and shadows in photovoltaic devices
Bella F |
| 162 - 168 |
Biopolymer electrolytes based on blend of kappa-carrageenan and cellulose derivatives for potential application in dye sensitized solar cell
Rudhziah S, Ahmad A, Ahmad I, Mohamed NS |
| 169 - 175 |
Efficiency improvement by incorporating 1-methyl-3-propylimidazolium iodide ionic liquid in gel polymer electrolytes for dye-sensitized solar cells
Ng HM, Ramesh S, Ramesh K |
| 176 - 183 |
Spectroscopic and microscopic study of Prussian blue film for electrochromic device application
Assis LMN, Andrade JR, Santos LHE, Motheo AJ, Hajduk B, Lapkowski M, Pawlicka A |
| 184 - 192 |
Ionic liquid-based polymer gel electrolytes for symmetrical solid-state electrical double layer capacitor operated at different operating voltages
Syahidah SN, Majid SR |
| 193 - 201 |
Electrodeposited Mn3O4-NiO-Co3O4 as a composite electrode material for electrochemical capacitor
Rusi, Majid SR |
| 202 - 208 |
Direct Methanol Anion Exchange Membrane Fuel Cell with a Non-Platinum Group Metal Cathode based on Iron-Aminoantipyrine Catalyst
Janarthanan R, Serov A, Pilli SK, Gamarra DA, Atanassov P, Hibbs MR, Herring AM |
| 209 - 213 |
Effect of zwitterions on electrochemical properties of oligoether-based electrolytes
Suematsu M, Yoshizawa-Fujita M, Zhu HJ, Forsyth M, Takeoka Y, Rikukawa M |
| 214 - 223 |
Enhanced ionic mobility in Organic Ionic Plastic Crystal - Dendrimer solid electrolytes
Greene GW, Ponzio F, Iranipour N, Zhu H, Seeber A, Forsyth M, Howlett PC |
| 224 - 231 |
Carboxymethyl Carrageenan Based Biopolymer Electrolytes
Mobarak NN, Jumaah FN, Ghani MA, Abdullah MP, Ahmad A |
| 232 - 239 |
Synthesis of Sodium Poly[4-styrenesulfonyl(trifluoromethylsulfonyl)imide]-co-ethylacrylate] Solid Polymer Electrolytes
Li JY, Zhu HJ, Wang XE, Armand M, MacFarlane DR, Forsyth M |
| 240 - 246 |
Role of propylene carbonate chirality on physicochemical properties of the corresponding ion conductors
Jankowski P, Grzegorzewska K, Szablowska A, Piszcz M, Dranka M, Zukowska GZ, Kalita M |
| 247 - 253 |
Synthesis of high molecular flexibility polycarbonates for solid polymer electrolytes
Mindemark J, Imholt L, Brandell D |
| 254 - 260 |
New family of highly conductive and low viscous ionic liquids with asymmetric 2,2,2-trifluoromethylsulfonyl-N-cyanoamide anion
Shaplov AS, Lozinskaya EI, Vlasov PS, Morozova SM, Antonov DY, Aubert PH, Armand M, Vygodskii YS |
