| 1283 - 1284 |
Special Issue POLYMER ELECTROLYTES Foreword
Silva MM |
| 1285 - 1288 |
Salt concentration dependence of the compensated Arrhenius equation for alcohol-based electrolytes
Petrowsky M, Frech R |
| 1289 - 1297 |
Systematics of salt precipitation in complexes of polyethylene oxide and alkali metal iodides
Bastek J, Stolwijk NA, Koster TKJ, van Wullen L |
| 1298 - 1307 |
Effect of calix[6]pyrrole anion receptor addition on properties of PEO-based solid polymer electrolytes doped with LiTf and LiTfSI salts
Hekselman, Kalita M, Plewa-Marczewska A, Zukowska GZ, Sasim E, Wieczorek W, Siekierski M |
| 1308 - 1313 |
Study of the interfacial stability of PVdF/HFP gel electrolytes with sub-micro- and nano-sized surface-modified silicas
Zalewska A, Walkowiak M, Niedzicki L, Jesionowski T, Langwald N |
| 1314 - 1322 |
Detailed studies on the fillers modification and their influence on composite, poly(oxyethylene)-based polymeric electrolytes
Syzdek J, Armand M, Marcinek M, Zalewska A, Zukowska G, Wieczorek W |
| 1323 - 1327 |
Poly(acrylonitrile)-montmorillonite nanocomposites Effects of the intercalation of the filler on the conductivity of composite polymer electrolytes
Moreno M, Ana MAS, Gonzalez G, Benavente E |
| 1328 - 1332 |
Mg2+-doped poly(epsilon-caprolactone)/siloxane biohybrids
Teixeira JCS, Fernandes M, Bermudez VD, Barbosa PC, Rodrigues LC, Silva MM, Smith MJ |
| 1333 - 1337 |
Poly(ethylene oxide)-poly(butadiene) interpenetrated networks as electroactive polymers for actuators: A molecular dynamics study
Brandell D, Kasemagi H, Aabloo A |
| 1338 - 1346 |
Hybrid polymeric electrolyte based on methylalumoxane. Matrix formation reaction
Marczewski M, Piszcz M, Plewa-Marczewska A, Zukowska GZ, Pietrzykowski A, Siekierski M |
| 1347 - 1354 |
Electrochemical performance of electrospun poly(vinylidene fluoride-co-hexafluoropropylene)-based nanocomposite polymer electrolytes incorporating ceramic fillers and room temperature ionic liquid
Raghavan P, Zhao XH, Manuel J, Chauhan GS, Ahn JH, Ryu HS, Ahn HJ, Kim KW, Nah C |
| 1355 - 1365 |
Hybrid inorganic-organic proton conducting membranes based on Nafion, SiO2 and triethylammonium trifluoromethanesulfonate ionic liquid
Thayumanasundaram S, Piga M, Lavina S, Negro E, Jeyapandian M, Ghassemzadeh L, Muller K, Di Noto V |
| 1366 - 1372 |
Ionic liquid-based gel polymer electrolyte for LiMn0.4Fe0.6PO4 cathode prepared by electrospinning technique
Kim JK, Manuel J, Chauhan GS, Ahn JH, Ryu HS |
| 1373 - 1379 |
Titanium dioxide/amine hybrid nanotubes. Optical properties and behavior as lithium-ion electrode
Vasquez J, Lopez Z, Zuniga A, Nacher A, Lira-Cantu M, Gomez-Romero P, Ana MAS, Benavente E, Gonzalez G |
| 1380 - 1384 |
All solid-state polymer electrolytes prepared from a graft copolymer consisting of a polyimide main chain and poly(ethylene oxide) based side chains
Higa M, Yaguchi K, Kitani R |
| 1385 - 1388 |
Preparation and characterization of multilayer-type electrolyte membranes with hydrocarbon polymers
Kamiya M, Yoshizawa-Fujita M, Takeoka Y, Rikukawa M |
| 1389 - 1395 |
NMR studies of equilibriums in electrolytes Ionic pairing in glymes
Plewa-Marczewska A, Kalita M, Marczewski M, Siekierski M |
| 1396 - 1400 |
Magnetic resonance and conductivity study of gelatin-based proton conductor polymer electrolytes
Mattos RI, Pawlicka A, Lima JF, Tambelli CE, Magon CJ, Donoso JP |
| 1401 - 1406 |
Ionic conductivity and interfacial properties of nanochitin-incorporated polyethylene oxide-LiN(C2F5SO2)(2) polymer electrolytes
Angulakshmi N, Kumar TP, Thomas S, Stephan AM |
| 1407 - 1418 |
Synthesis, characterization and electrochemical performance of tri-metal Pt-free carbon nitride electrocatalysts for the oxygen reduction reaction
Di Noto V, Negro E |
| 1419 - 1424 |
Proton-conducting electrolyte membranes based on hyperbranched polymer with a sulfonic acid group for high-temperature fuel cells
Itoh T, Sakakibara T, Takagi Y, Tamura M, Uno T, Kubo M, Aihara Y |
| 1425 - 1430 |
Synthesis and characterization of sulfonated bromo-poly(2,6-dimethyl-1,4-phenylene oxide)-co-(2,6-diphenyl-1,4-phenylene oxide) copolymer as proton exchange membrane
Jeong YG, Seo DW, Lim YD, Jin HM, Mollah MSI, Ur SC, Pyun SY, Kim WG |
| 1431 - 1444 |
Structure, properties and proton conductivity of Nafion/[(TiO2)center dot(WO3)(0.148)](psi TiO2) nanocomposite membranes
Di Noto V, Piga M, Lavina S, Negro E, Yoshida K, Ito R, Furukawa T |
| 1445 - 1449 |
Poly(vinyl alcohol)-based polymer electrolyte membranes for direct methanol fuel cells
Higa M, Sugita M, Maesowa SI, Endo N |
| 1450 - 1454 |
New type of imidazole based salts designed specifically for lithium ion batteries
Niedzicki L, Zukowska GZ, Bukowska M, Szczecinski P, Grugeon S, Laruelle S, Armand M, Panero S, Scrosati B, Marcinek M, Wieczorek W |
| 1455 - 1459 |
Agar-based films for application as polymer electrolytes
Raphael E, Avellaneda CO, Manzolli B, Pawlicka A |
| 1460 - 1467 |
UV-curable siloxane-acrylate gel-copolymer electrolytes for lithium-based battery applications
Gerbaldi C, Nair JR, Meligrana G, Bongiovanni R, Bodoardo S, Penazzi N |
| 1468 - 1474 |
Preparation and characterization of core-shell electrodes for application in gel electrolyte-based dye-sensitized solar cells
Avellaneda CO, Goncalves AD, Benedetti JE, Nogueira AF |
| 1475 - 1482 |
Plasticized chitosan-PVA blend polymer electrolyte based proton battery
Kadir MFZ, Majid SR, Arof AK |
| 1483 - 1488 |
Synthesis of a novel imidazolium-based electrolytes and application for dye-sensitized solar cells
Seo DW, Sarker S, Nath NCD, Choi SW, Ahammad AJS, Lee JJ, Kim WG |
| 1489 - 1494 |
Optimization of performances of gelatin/LiBF4-based polymer electrolytes by plasticizing effects
Vieira DF, Pawlicka A |
| 1495 - 1502 |
Solid-state electrochromic devices using pTMC/PEO blends as polymer electrolytes
Barbosa PC, Rodrigues LC, Silva MM, Smith MJ, Parola AJ, Pina F, Pinheiro C |
