| 1157 - 1158 |
Sixth International Symposium on Polymer Electrolytes
Watanabe M |
| 1161 - 1165 |
Insertion of ionophobic components into amphiphilic low-dimensional polymer electrolytes
Zheng YG, Wright PV, Ungar G |
| 1167 - 1174 |
Characterization of comb-shaped high molecular weight poly(oxyethylene) with tri(oxyethylene) side chains for a polymer solid electrolyte
Ikeda Y, Wada Y, Matoba Y, Murakami S, Kohjiya S |
| 1175 - 1180 |
The use of boroxine rings for the development of high performance polymer electrolytes
Mehta MA, Fujinami T, Inoue S, Matsushita K, Miwa T, Inoue T |
| 1181 - 1186 |
Molecular design of inorganic-organic hybrid polyelectrolytes to enhance lithium ion conductivity
Fujinami T, Mehta MA, Sugie K, Mori K |
| 1187 - 1192 |
Single ion conduction in polyether electrolytes alloyed with lithium salt of a perfluorinated polyimide
Watanabe M, Suzuki Y, Nishimoto A |
| 1193 - 1201 |
Electrochemical investigation of lithium aromatic sulfonyl imide salts
Alloin F, Bayoud S, Azimipour B, Reibel L, Sanchez JY |
| 1203 - 1209 |
Polymer electrolytes comprising organometallic compounds
Florjanczyk Z, Zygadlo-Monikowska E, Bzducha W |
| 1211 - 1221 |
Poly[(oligoethylene glycol) dihydroxytitanate] as organic-inorganic polymer-electrolytes
Munchow V, Di Noto V, Tondello E |
| 1223 - 1226 |
Ion conductivity of poly(ethylene oxide)/ligand complexes with the hydrogen-bond interaction
Tsuruhara K, Hara K, Kawahara M, Rikukawa M, Sanui K, Ogata N |
| 1229 - 1236 |
Molecular and anionic polymer and oligomer systems with microdecoupled conductivities
Zhang SS, Chang Z, Xu K, Angell CA |
| 1237 - 1242 |
NMR and Raman studies of a novel fast-ion-conducting polymer-in-salt electrolyte based on LiCF3SO3 and PAN
Ferry A, Edman L, Forsyth M, MacFarlane DR, Sun JZ |
| 1243 - 1247 |
Glass transition and free volume behaviour of poly(acrylonitrile)/LiCF3SO3 polymer-in-salt electrolytes compared to poly(ether urethane)/LiClO4 solid polymer electrolytes
Forsyth M, MacFarlane DR, Hill AJ |
| 1249 - 1254 |
Novel high salt content polymer electrolytes based on high T-g polymers
Forsyth M, Sun JZ, MacFarlane DR |
| 1255 - 1263 |
Electrochemical and spectroscopic studies of polymethacrylonitrile based electrolytes
Saunier J, Alloin F, Sanchez JY |
| 1265 - 1270 |
Highly conductive polymer electrolytes prepared by in situ polymerization of vinyl monomers in room temperature molten salts
Noda A, Watanabe M |
| 1271 - 1278 |
High conductivity molten salts based on the imide ion
McFarlane DR, Sun J, Golding J, Meakin P, Forsyth M |
| 1279 - 1284 |
Ion diffusion in molten salt mixtures
Every H, Bishop AG, Forsyth M, MacFarlane DR |
| 1285 - 1289 |
Effect of added salt species on the ionic conductivity of PEO/sulfonamide salt hybrids
Tominaga Y, Takizawa N, Ohno H |
| 1291 - 1294 |
Preparation and polymerization of new organic molten salts; N-alkylimidazolium salt derivatives
Hirao M, Ito K, Ohno H |
| 1295 - 1298 |
Enhanced ion conduction in imidazolium-type molten salts
Ito K, Nishina N, Ohno H |
| 1301 - 1306 |
Electrochemical characteristics of PAN ionomer based polymer electrolytes
Lee KH, Park JK, Kim WJ |
| 1307 - 1312 |
Novel gel polymer electrolytes based on alkylene oxide macromonomer
Kono M, Nishiura M, Ishiko E, Sada T |
| 1313 - 1319 |
Self-diffusion coefficients of lithium, anion, polymer, and solvent in polymer gel electrolytes measured using Li-7,F-19, and H-1 pulsed-gradient spin-echo NMR
Hayamizu K, Aihara Y, Arai S, Price WS |
| 1321 - 1326 |
Ionic conductivity, DSC and self diffusion coefficients of lithium, anion, polymer, and solvent of polymer gel electrolytes: the structure of the gels and the diffusion mechanism of the ions
Aihara Y, Arai S, Hayamizu K |
| 1327 - 1334 |
Alternating copolymers for novel polymer electrolytes: the electrochemical properties
Reiche A, Weinkauf A, Sandner B, Rittig F, Fleischer G |
| 1335 - 1340 |
Ionic structure and conductance behavior of plasticized polymeric electrolytes containing multivalent cations
Morita M, Araki F, Kashiwamura K, Yoshimoto N, Ishikawa M |
| 1341 - 1345 |
Transport properties and microstructure of gel polymer electrolytes
Capiglia C, Saito Y, Yamamoto H, Kageyama H, Mustarelli P |
| 1347 - 1360 |
Electrochemical properties of polymer gel electrolytes based on poly(vinylidene fluoride) copolymer and homopolymer
Michot T, Nishimoto A, Watanabe M |
| 1361 - 1369 |
Copper-ion conducting solid-polymer electrolytes based on polyacrylonitrile (PAN)
Perera K, Dissanayake MAKL, Bandaranayake PWSK |
| 1371 - 1374 |
Ionic conduction in PEO-PAN blend polymer electrolytes
Choi BK, Kim YW, Shin HK |
| 1377 - 1383 |
Proton conducting sulfon/sulfonamide functionalized materials based on inorganic-organic matrices
Depre L, Ingram M, Poinsignon C, Popall M |
| 1385 - 1389 |
Proton conducting behavior in non-crosslinked and crosslinked polyethylenimine with excess phosphoric acid
Tanaka R, Yamamoto H, Shono A, Kubo K, Sakurai M |
| 1391 - 1394 |
Synthesis of proton conducting polymer based on poly(silamine)
Tsuruhara K, Rikukawa M, Sanui K, Ogata N, Nagasaki Y, Kato M |
| 1395 - 1398 |
Synthesis and proton conductivity of thermally stable polymer electrolyte: poly(benzimidazole) complexes with strong acid molecules
Kawahara M, Morita J, Rikukawa M, Sanui K, Ogata N |
| 1399 - 1403 |
More studies on the PVAl+H3PO2+H2O proton conductor gels
Vargas MA, Vargas RA, Mellander BE |
| 1405 - 1408 |
Degradation of a fuel cell membrane, as revealed by micro-Raman spectroscopy
Mattsson B, Ericson H, Torell LM, Sundholm F |
| 1409 - 1414 |
Poly(methyl methacrylate)-based protonic gel electrolytes: a spectroscopic study
Ericson H, Svanberg C, Brodin A, Grillone AM, Panero S, Scrosati B, Jacobsson P |
| 1417 - 1423 |
Polymer electrolyte structure and its implications
Andreev YG, Bruce PG |
| 1425 - 1429 |
Molecular dynamics simulation of a polymer-inorganic interface
Aabloo A, Klintenberg M, Thomas JO |
| 1431 - 1436 |
Stretching-induced conductivity enhancement of LiI-(PEO)-polymer electrolyte
Golodnitsky D, Peled E |
| 1437 - 1441 |
Studies of ionic interactions in low molecular weight polyether electrolytes
Stygar J, Zalewska A, Wieczorek W |
| 1443 - 1448 |
Correlation between ionic and dipolar motions in a single-ion conducting polymer P[MEO9-MAM]
Furukawa T, Yoneya K, Takahashi Y, Ito K, Ohno H |
| 1449 - 1452 |
Neutron diffraction investigations of the cation coordination in an amorphous polymer electrolyte, PPO-LiClO4
Carlsson P, Swenson J, Borjesson L, McGreevy RL, Jacobsson P, Torell LM, Howells WS |
| 1453 - 1461 |
Characterisation of sub micron salt-doped polymer electrolyte films
Mattsson J, Forrest JA, Krozer A, Soddervall U, Wennerberg A, Torell LM |
| 1463 - 1466 |
Preparation and characterization of a polymer electrolyte based on europium picrate
Silva MM, Smith MJ |
| 1467 - 1471 |
Thermal properties and ionic conductivities of lanthanide-based ormolytes
Silva MM, Bermudez VD, Carlos LD, Smith MJ |
| 1473 - 1477 |
Relation between glass transition and melting of PEO-salt complexes
Kim YW, Lee W, Choi BK |
| 1481 - 1490 |
Transport and interfacial properties of composite polymer electrolytes
Appetecchi GB, Croce F, Persi L, Ronci F, Scrosati B |
| 1491 - 1500 |
Characterization of self-assembled molecular layers at the polymer electrolyte/lithium electrode interface
Le Granvalet-Mancini M, Honeycutt L, Teeters D |
| 1501 - 1508 |
An overview of the research and development of solid polymer electrolyte batteries
Murata K, Izuchi S, Yoshihisa Y |
| 1509 - 1512 |
Development of lithium ion and lithium polymer batteries for electric vehicle and home-use load leveling system application
Iwahori T, Mitsuishi I, Shiraga S, Nakajima T, Momose H, Ozaki Y, Taniguchi S, Awata H, Ono T, Takeuchi K |
| 1513 - 1517 |
Lithium ion batteries for Mars exploration missions
Ratnakumar BV, Smart MC, Huang CK, Perrone D, Surampudi S, Greenbaum SG |
| 1519 - 1525 |
Study of phase changes during 500 full cycles of Li/composite polymer electrolyte/FeS2 battery
Strauss E, Golodnitsky D, Peled E |
| 1527 - 1532 |
Electrochemical properties of an alkaline solid polymer electrolyte based on P(ECH-co-EO)
Vassal N, Salmon E, Fauvarque JF |
| 1533 - 1536 |
Electrochemical properties of carbon composite electrode with polymer electrolyte for electric double-layer capacitor
Gu HB, Kim JU, Song HW, Park GC, Park BK |
| 1537 - 1541 |
Ionic conductivities of low molecular-weight organic gels and their application as electrochromic materials
Yasuda Y, Kamiyama T, Shirota Y |
| 1543 - 1547 |
Electrochromic properties of new methacrylate copolymers containing pendant oligothiophene and oligo(ethyleneoxide) moieties in the presence of a polymer-gel electrolyte
Ohsedo Y, Imae I, Shirota Y |
| 1549 - 1553 |
Improvement of reversible photoelectrochromic reaction of polyaniline in polyelectrolyte composite film with the dichloroethane solution system
Kim Y, Teshima K, Kobayashi N |
| 1555 - 1560 |
An intra-Nd3+ visible to infrared conversion process in hybrid xerogels
Carlos LD, Ferreira RAS, Bermudez VD |
