| 1 - 1 |
XIth Polish Conference on Fast Ionic Conductors, Grybow, Poland, 14-18 September 2008 Preface
Dygas JR, Krok F, Wieczorek W |
| 2 - 9 |
Structural and electrical properties of grain boundaries in Ce0.85Gd0.15O1.925 solid electrolyte modified by addition of transition metal ions
Zajac W, Suescun L, Swierczek K, Molenda J |
| 10 - 15 |
Applications of spin coating of polymer precursor and slurry suspensions for Solid Oxide Fuel Cell fabrication
Jasinski P, Molin S, Gazda M, Petrovsky V, Anderson HU |
| 16 - 19 |
Investigation of transport numbers in yttrium doped bismuth niobates
Malys M, Holdynski M, Krok F, Wrobel W, Dygas JR, Pirovano C, Vannier RN, Capoen E, Abrahams I |
| 20 - 24 |
Interaction of yttria stabilized zirconia electrolyte with Fe2O3 and Cr2O3
Molin S, Gazda M, Jasinski P |
| 25 - 30 |
Structural and electrical properties of (Ba1-xSrx)(Zr0.9M0.1)O-3, M = Y, La, solid solutions
Bucko MM, Dudek M |
| 31 - 37 |
Electrochemical impedance spectroscopy of BaCeO3 modified by Ti and Y
Pasierb R, Wierzbicka M, Komornicki S, Rekas M |
| 38 - 44 |
Structural and transport properties of layered Li1+x(Mn1/3Co1/3Ni1/3)(1-x)O-2 oxides prepared by a soft chemistry method
Gozu M, Swierczek K, Molenda J |
| 45 - 50 |
A binary ionic liquid system composed of N-methoxyethyl-N-methylpyrrolidinium bis(trifluoromethanesulfonyl)-imide and lithium bis(trifluoromethanesulfonyl)imide: A new promising electrolyte for lithium batteries
Ferrari S, Quartarone E, Mustarelli P, Magistris A, Protti S, Lazzaroni S, Fagnoni M, Albini A |
| 51 - 57 |
Star-branched poly(ethylene oxide) LiN(CF3SO2)(2): A promising polymer electrolyte
Marzantowicz M, Dygas JR, Krok F, Tomaszewska A, Florjanczyk Z, Zygadlo-Monikowska E, Lapienis G |
| 58 - 65 |
The competitive interactions between the anion-receptor, anions and neutral solvent species
Plewa-Marczewska A, Bukat M, Kalita M, Solgala A, Pourjafarinokande D, Ketabi S, Emani H, Pisniak A, Siekierski M |
| 66 - 72 |
Ceramic-in-polymer versus polymer-in-ceramic polymeric electrolytes-A novel approach
Syzdek J, Armand M, Gizowska M, Marcinek M, Sasim E, Szafran M, Wieczorek W |
| 73 - 80 |
Correlation between electrical properties and microstructure of nanocrystallized V2O5-P2O5 glasses
Pietrzak TK, Garbarczyk JE, Gorzkowska I, Wasiucionek M, Nowinski JL, Gierlotka S, Jozwiak R |
| 81 - 87 |
Catalytically graphitized glass-like carbon examined as anode for lithium-ion cell performing at high charge/discharge rates
Skowronski JM, Knofczynski K |
| 88 - 92 |
Structural and transport properties of LixNi1-y-zCoyMnzO2 cathode materials
Molenda J, Milewska A |
| 93 - 103 |
Structural and electrical properties of magnetron sputtered Ti(ON) thin films: The case of TiN doped in situ with oxygen
Trenczek-Zajac A, Radecka M, Zakrzewska K, Brudnik A, Kusior E, Bourgeois S, de Lucas MCM, Imhoff L |
| 104 - 111 |
Influence of Cr on structural and optical properties of TiO2:Cr nanopowders prepared by flame spray synthesis
Trenczek-Zajac A, Radecka M, Jasinski M, Michalow KA, Rekas M, Kusior E, Zakrzewska K, Heel A, Graule T, Kowalski K |
| 112 - 117 |
Hybrid electrodes composed of electroactive polymer and metal hexacyanoferrates in aprotic electrolytes
Wilamowska M, Lisowska-Oleksiak A |
| 119 - 129 |
Review on microfabricated micro-solid oxide fuel cell membranes
Evans A, Bieberle-Hutter A, Rupp JLM, Gauckler LJ |
| 130 - 145 |
A review on polymer electrolyte membrane fuel cell catalyst degradation and starvation issues: Causes, consequences and diagnostic for mitigation
Yousfi-Steiner N, Mocoteguy P, Candusso D, Hissel D |
| 146 - 160 |
Gas diffusion layer for proton exchange membrane fuel cells-A review
Cindrella L, Kannan AM, Lin JF, Saminathan K, Ho Y, Lin CW, Wertz J |
| 161 - 167 |
Effect of methanol, ethylene glycol and their oxidation by-products on the activity of Pt-based oxygen-reduction catalysts
Travitsky N, Burstein L, Rosenburg Y, Peled E |
| 168 - 174 |
Highly conductive, methanol resistant fuel cell membranes fabricated by layer-by-layer self-assembly of inorganic heteropolyacid
Zhao CJ, Lin HD, Cui ZM, Li XF, Na H, Xing W |
| 175 - 181 |
Novel sulfonated poly(ether ether ketone) with pendant benzimidazole groups as a proton exchange membrane for direct methanol fuel cells
Zhang Y, Shao K, Zhao CJ, Zhang G, Li HT, Fu TZ, Na H |
| 182 - 189 |
Compatibility of the Py24TFSI-LiTFSI ionic liquid solution with Li4Ti5O12 and LiFePO4 lithium ion battery electrodes
Reale P, Fernicola A, Scrosati B |
| 190 - 198 |
A droplet size dependent multiphase mixture model for two phase flow in PEMFCs
He GL, Yamazaki Y, Abudula A |
| 199 - 205 |
Microbial fuel cell performance of multiwall carbon nanotubes on carbon cloth as electrodes
Tsai HY, Wu CC, Lee CY, Shih EP |
| 206 - 213 |
Increases in the proton conductivity and selectivity of proton exchange membranes for direct methanol fuel cells by formation of nanocomposites having proton conducting channels
Su YH, Liu YL, Wang DM, Lai JY, Guiver MD, Liu BJ |
| 214 - 219 |
In situ Van der Pauw measurements of the Ni/YSZ anode during exposure to syngas with phosphine contaminant
Demircan O, Xu CC, Zondlo J, Finklea HO |
| 220 - 225 |
Preparation of polysiloxane modified perfluorosulfonic acid composite membranes assisted by supercritical carbon dioxide for direct methanol fuel cell
Su LJ, Li L, Li H, Tang JK, Zhang YM, Yu W, Zhou CX |
| 226 - 233 |
Nafion (R)/nitrated sulfonated poly(ether ether ketone) membranes for direct methanol fuel cells
Tsai JC, Kuo JF, Chen CY |
| 234 - 242 |
Multichelate-functionalized carbon nanospheres used for immobilizing Pt catalysts for fuel cells
Kuo PL, Chen WF, Lin CY |
| 243 - 251 |
Study of different nanostructured carbon supports for fuel cell catalysts
Gattia DM, Antisari MV, Giorgi L, Marazzi R, Piscopiello E, Montone A, Bellitto S, Licoccia S, Traversa E |
| 252 - 262 |
Effect of substitution with Cr3+ and addition of Ni on the physical and electrochemical properties of Ce0.9Sr0.1VO3 as a H2S-active anode for solid oxide fuel cells
Danilovic N, Luo JL, Chuang KT, Sanger AR |
| 263 - 268 |
Cathode reaction models and performance analysis of Sm0.5Sr0.5CoO3-delta-BaCe0.8Sm0.2O3-delta composite cathode for solid oxide fuel cells with proton conducting electrolyte
He F, Wu TZ, Peng RR, Xia CR |
| 269 - 274 |
Persulfate: A self-activated cathodic electron acceptor for microbial fuel cells
Li J, Fu Q, Liao Q, Zhu X, Ye DD, Tian X |
| 275 - 280 |
Palladium and ceria infiltrated La0.8Sr0.2Co0.5Fe0.5O3-delta cathodes of solid oxide fuel cells
Chen J, Liang FL, Chi B, Pu J, Jiang SP, Jian L |
| 281 - 285 |
Excellent dispersion and electrocatalytic properties of Pt nanoparticles supported on novel porous anatase TiO2 nanorods
Guo X, Guo DJ, Qiu XP, Chen LQ, Zhu WT |
| 286 - 290 |
Online analysis of carbon dioxide from a direct ethanol fuel cell
Ghumman A, Li GC, Bennett DV, Pickup PG |
| 291 - 294 |
In situ drop-coated BaZr0.1Ce0.7Y0.2O3-delta electrolyte-based proton-conductor solid oxide fuel cells with a novel layered PrBaCuFeO5+delta cathode
Zhao L, He BB, Nian Q, Xun ZQ, Peng RR, Meng GY, Liu XQ |
| 295 - 297 |
Electrooxidation of 2-propanol compared ethanol on Pd electrode in alkaline medium
Su YZ, Xu CW, Liu JP, Liu ZQ |
| 298 - 302 |
An unexpected, self-regulating codeposition of nickel and platinum forming deposits with surfaces enriched in platinum
Menard LN, Bergens SH |
| 303 - 312 |
A stochastic geometry based model for total triple phase boundary length in composite cathodes for solid oxide fuel cells
Gokhale AM, Zhang S, Liu M |
| 313 - 327 |
Effects of temperature uncertainty on the performance of a degrading PEM fuel cell model
Placca L, Kout R, Blachot JF, Charon W |
| 328 - 337 |
Uneven gas diffusion layer intrusion in gas channel arrays of proton exchange membrane fuel cell and its effects on flow distribution
Kandlikar SG, Lu Z, Lin TY, Cooke D, Daino M |
| 338 - 348 |
Nonlinear robust control of proton exchange membrane fuel cell by state feedback exact linearization
Li Q, Chen W, Wang Y, Jia J, Han M |
| 349 - 359 |
Numerical analysis of effects of flow channel size on reactant transport in a proton exchange membrane fuel cell stack
Cheng CH, Lin HH |
| 360 - 368 |
Adaptive supervisory control strategy of a fuel cell/battery-powered city bus
Xu LF, Li JQ, Hua JF, Li XJ, Ouyang MG |
| 369 - 380 |
A wavelet-fuzzy logic based energy management strategy for a fuel cell/battery/ultra-capacitor hybrid vehicular power system
Erdinc O, Vural B, Uzunoglu M |
| 381 - 390 |
A high efficient assembly technique for large PEMFC stacks Part I. Theory
Lin P, Zhou P, Wu CW |
| 391 - 396 |
Influence of current collectors design on the performance of a silicon-based passive micro direct methanol fuel cell
Esquivel JP, Sabate N, Santander J, Torres-Herrero N, Gracia I, Ivanov P, Fonseca L, Cane C |
| 397 - 407 |
A model-based parametric analysis of a direct ethanol polymer electrolyte membrane fuel cell performance
Andreadis GM, Podias AKM, Tsiakaras PE |
| 408 - 422 |
Microstructural characterization of solid oxide fuel cell electrodes by image analysis technique
Lanzini A, Leone P, Asinari P |
| 423 - 432 |
Analyses of heat and water transport interactions in a proton exchange membrane fuel cell
Afshari E, Jazayeri SA |
| 433 - 444 |
Wettability and capillary behavior of fibrous gas diffusion media for polymer electrolyte membrane fuel cells
Gostick JT, Ioannidis MA, Fowler MW, Pritzker MD |
| 445 - 450 |
An active micro-direct methanol fuel cell with self-circulation of fuel and built-in removal of CO2 bubbles
Meng DD, Kim CJ |
| 451 - 455 |
The limits of proton conductivity in polymeric sulfonated membranes: A modelling study
Pisani L |
| 456 - 466 |
Decentralized generation of electricity from biomass with proton exchange membrane fuel cell
Toonssen R, Woudstra N, Verkooijen AHM |
| 467 - 477 |
Hysteresis and reaction characterization of methane catalytic partial oxidation on rhodium catalyst
Chen WH, Chiu TW, Hung CI, Lin MR |
| 478 - 481 |
Magnetically recyclable Fe-Ni alloy catalyzed dehydrogenation of ammonia borane in aqueous solution under ambient atmosphere
Yan JM, Zhang XB, Han S, Shioyama H, Xu Q |
| 482 - 485 |
Study of molybdenum electrodes for hydrogen evolution reaction
Padilha JC, Martini EMA, Brum C, de Souza MO, de Souza RF |
| 486 - 493 |
Carbon-coated graphite for anode of lithium ion rechargeable batteries: Carbon coating conditions and precursors
Nozaki H, Nagaoka K, Hoshi K, Ohta N, Inagaki M |
| 494 - 501 |
Fe3+ and Ni3+ impurity distribution and electrochemical performance of LiCoO2 electrode materials for lithium ion batteries
Alcantara R, Ortiz G, Tirado JL, Stoyanova R, Zhecheva E, Ivanova S |
| 502 - 507 |
Properties of the lithium and graphite-lithium anodes in N-methyl-N-propylpyrrolidinium bis(trifluoromethanesulfonyl)imide
Lewandowski A, Swiderska-Mocek A |
| 508 - 514 |
Comparative study on carbon cathodes with and without cobalt phthalocyanine in Li/(SOCl2 + BrCl) cells
Guo YS, Ge HH, Zhou GD, Wu YP |
| 515 - 519 |
Template-free reverse micelle process for the synthesis of a rod-like LiFePO4/C composite cathode material for lithium batteries
Hwang BJ, Hsu KF, Hu SK, Cheng MY, Chou TC, Tsay SY, Santhanam R |
| 520 - 525 |
Fabrication of single-walled carbon nanotube/tin nanoparticle composites by electrochemical reduction combined with vacuum filtration and hybrid co-filtration for high-performance lithium battery electrodes
Lee JH, Kong BS, Yang SB, Jung HT |
| 526 - 530 |
High voltage spinel cathode materials for high energy density and high rate capability Li ion rechargeable batteries
Katiyar RK, Singhal R, Asmar K, Valentin R, Katiyar RS |
| 531 - 535 |
Effects of Lewis-acid polymer on the electrochemical properties of alkylphosphate-based non-flammable gel electrolyte
Lalia BS, Yoshimoto N, Egashira M, Morita M |
| 536 - 540 |
The defect chemistry of LiFePO4 prepared by hydrothermal method at different pH values
Liu JL, Jiang RR, Wang XY, Huang T, Yu AS |
| 541 - 549 |
Identify capacity fading mechanism in a commercial LiFePO4 cell
Dubarry M, Liaw BY |
| 550 - 557 |
Analysis of internal short-circuit in a lithium ion cell
Santhanagopalan S, Ramadass P, Zhang J |
| 558 - 567 |
State of charge estimation in Ni-MH rechargeable batteries
Milocco RH, Castro BE |
| 568 - 573 |
Application of mesoporous carbon to counter electrode for dye-sensitized solar cells
Wang GQ, Xing W, Zhuo SP |
| 574 - 578 |
Nanostructured photoelectrode consisting of TiO2 hollow spheres for non-volatile electrolyte-based dye-sensitized solar cells
Park JH, Jung SY, Kim R, Park NG, Kim J, Lee SS |
