| 497 - 498 |
Selected papers presented at the PBFC 2007 on the occasion of Professor Bruno Scrosati's 70th birthday - Preface
Croce F |
| 499 - 509 |
Short-side-chain proton conducting perfluorosulfonic acid ionomers: Why they perform better in PEM fuel cells
Kreuer KD, Schuster M, Obliers B, Diat O, Traub U, Fuchs A, Klock U, Paddison SJ, Maier J |
| 510 - 516 |
Non-precious metal oxygen reduction catalyst for PEM fuel cells based on nitroaniline precursor
Wood TE, Tan Z, Schmoeckel AK, O'Neill D, Atanasoski R |
| 517 - 524 |
Semi-empirical evaluation of PEMFC electro-catalytic activity
Spinelli P, Francia C, Ambrosio EP, Lucariello M |
| 525 - 536 |
Performance and degradation of high temperature polymer electrolyte fuel cell catalysts
Arico AS, Stassi A, Modica E, Ornelas R, Gatto I, Passalacqua E, Antonucci V |
| 537 - 546 |
Percolative model of proton conductivity of Nafion (R) membranes
Costamagna P, Grosso S, Di Felice R |
| 547 - 553 |
High utilization of Pt nanocatalysts fabricated using a high-pressure sputtering technique
Yoo SJ, Cho YH, Park HS, Lee JK, Sung YE |
| 554 - 560 |
Sulfonated polyether ether ketone and hydrated tin oxide proton conducting composites for direct methanol fuel cell applications
Mecheri B, D'Epifanio A, Traversa E, Licoccia S |
| 561 - 574 |
New inorganic-organic proton conducting membranes based on Nafion (R) and [(ZrO2)center dot(SiO2)(0.67)]nanoparticles: Synthesis vibrational studies and conductivity
Di Noto V, Piga M, Piga L, Polizzi S, Negro E |
| 575 - 583 |
Effects of hydrothermal/thermal treatments on the water-uptake of Nafion membranes and relations with changes of conformation, counter-elastic force and tensile modulus of the matrix
Alberti G, Narducci R, Sganappa M |
| 584 - 590 |
Methanol oxidation by pEDOT-pSS/PtRu in DMFC
Arbizzani C, Biso M, Manferrari E, Mastragostino M |
| 591 - 595 |
Proton-conducting membranes based on protic ionic liquids
Fernicola A, Panero S, Scrosati B |
| 596 - 602 |
Three-dimensionally ordered macroporous polyimide composite membrane with controlled pore size for direct methanol fuel cells
Munakata H, Yamamoto D, Kanamura K |
| 603 - 609 |
Pt-Co cathode electrocatalyst behaviour viewed by in situ XAFS fuel cell measurements
Witkowska A, Dsoke S, Principi E, Marassi R, Di Cicco A, Albertini VR |
| 610 - 619 |
Surface chemistry and physical properties of Nafion/polypyrrole/Pt composite membrane prepared by chemical in situ polymerization for DMFC
Park H, Kim Y, Choi YS, Hong WH, Jung D |
| 620 - 626 |
Performance of solid alkaline fuel cells employing anion-exchange membranes
Park JS, Park SH, Yim SD, Yoon YG, Lee WY, Kim CS |
| 627 - 633 |
Anhydrous proton-conducting electrolyte membranes based on hyperbranched polymer with phosphonic acid groups for high-temperature fuel cells
Itoh T, Hirai K, Tamura M, Uno T, Kubo M, Aihara Y |
| 634 - 641 |
Polymer electrolyte fuel cells based on bimetallic carbon nitride electrocatalysts
Negro E, Di Noto V |
| 642 - 650 |
A study on fabrication of sulfonated poly(ether ether ketone)-based membrane-electrode assemblies for polymer electrolyte membrane fuel cells
Park JS, Krishnan P, Park SH, Park GG, Yang TH, Lee WY, Kim CS |
| 651 - 660 |
New membranes based on ionic liquids for PEM fuel cells at elevated temperatures
Ye H, Huang J, Xu JJ, Kodiweera NKAC, Jayakody JRP, Greenbaum SG |
| 661 - 666 |
Composite STEEK membranes for medium temperature polymer electrolyte fuel cells
Carbone A, Pedicini R, Sacca A, Gatto I, Passalacqua E |
| 667 - 670 |
Mechanical properties of hybrid proton conducting polymer blends based on sulfonated polyetheretherketones
Sgreccia E, Khadhraoui M, de Bonis C, Licoccia S, Di Vona ML, Knauth P |
| 671 - 676 |
Corrosion resistance of chromized 316L stainless steel for PEMFC bipolar plates
Cho KH, Lee WG, Lee SB, Jang H |
| 677 - 682 |
Sulfonated poly(fluorinated arylene ether)s/poly(N-vinylimidazole) blend polymer and PTFE layered membrane for operating PEMFC at high temperature
Choi DH, Lee J, Kwon O, Kim JY, Kim K |
| 683 - 686 |
Perovskite-type oxides La1-xSrxMnO3 for cathode catalysts in direct ethylene glycol alkaline fuel cells
Miyazaki K, Sugimura N, Matsuoka K, Iriyama Y, Abe T, Matsuoka M, Ogumi Z |
| 687 - 691 |
Direct ethylene glycol fuel-cell stack - Study of oxidation intermediate products
Livshits V, Philosoph A, Peled E |
| 692 - 698 |
Heat transport characteristics of flow fields in proton exchange membrane fuel cells
Cho SA, Lee PH, Han SS, Hwang SS |
| 699 - 705 |
Impacts of air bleeding on membrane degradation in polymer electrolyte fuel cells
Inaba M, Sugishita M, Wada J, Matsuzawa K, Yamada H, Tasaka A |
| 706 - 710 |
Fuzzy control based engine sizing optimization for a fuel cell/battery hybrid mini-bus
Kim M, Sohn YJ, Lee WY, Kim CS |
| 711 - 715 |
Operating characteristics of 40 W-class PEMFC stacks using reformed gas under low humidifying conditions
Yim SD, Sohn YJ, Yoon YG, Um S, Kim CS, Lee WY |
| 716 - 722 |
Ionic conductivity and thermal property of solid hybrid polymer electrolyte composed of oligo(ethylene oxide) unit and butyrolactone unit
Uno T, Kawaguchi S, Kubo M, Itoh T |
| 723 - 728 |
The synthesis and lithium intercalation electrochemistry of VO2(B) ultra-thin nanowires
Armstrong G, Canales J, Armstrong AR, Bruce PG |
| 729 - 735 |
Lithium ion conduction in ionic liquid-based gel polymer electrolyte
Egashira M, Todo H, Yoshimoto N, Morita M |
| 736 - 743 |
A search for a single-ion-conducting polymer electrolyte: Combined effect of anion trap and inorganic filler
Mazor H, Goodnitsky D, Peled E, Wieczorek W, Scrosati B |
| 744 - 750 |
Surface-modified meso-carbon microbeads anode for dry polymer lithium-ion batteries
Imanishi N, Ono Y, Hanai K, Uchiyama R, Liu Y, Hirano A, Takeda Y, Yamamoto O |
| 751 - 757 |
UV-cured methacrylic membranes as novel gel-polymer electrolyte for Li-ion batteries
Nair JR, Gerbaldi C, Meligrana G, Bongiovanni R, Bodoardo S, Penazzi N, Reale P, Gentili V |
| 758 - 764 |
Superelastic electrodes using Ti-Ni shape memory alloys
Kim HS, Kim JS, Kim MG, Cho KK, Nam TH |
| 765 - 768 |
The effect of internal resistance on dendritic growth on lithium metal electrodes in the lithium secondary batteries
Park HE, Hong CH, Yoon WY |
| 769 - 773 |
The effects of current density and amount of discharge on dendrite formation in the lithium powder anode electrode
Seong IW, Hong CH, Kim BK, Yoon WY |
| 774 - 778 |
The presence of nanostructured Al2O3 in PMMA-based gel electrolytes
Krejza O, Velicka J, Sedlarikova M, Vondrak J |
| 779 - 782 |
Ionic conductivity studies of gel polyelectrolyte based on ionic liquid
Cha EH, Lim SA, Park JH, Kim DW, Macfarlane DR |
| 783 - 788 |
Lithiated short side chain perfluorinated sulfonic ionomeric membranes: Water content and conductivity
Navarrini W, Scrosati B, Panero S, Ghielmi A, Sanguineti A, Geniram G |
| 789 - 794 |
Enhancement of electrochemical performance of lithium dry polymer battery with LiFePO4/carbon composite cathode
Hanai K, Maruyama T, Imanishi N, Hirano A, Takeda Y, Yamamoto O |
| 795 - 800 |
Fabrication and properties of a carbon/polypyrrole three-dimensional microbattery
Min HS, Park BY, Taherabadi L, Wang CL, Yeh Y, Zaouk R, Madou MJ, Dunn B |
| 801 - 806 |
A study on the electrochemical characteristics of LiFePO4 cathode for lithium polymer batteries by hydrothermal method
Jin EM, Jin B, Jun DK, Park KH, Gu HB, Kim KW |
| 807 - 814 |
Morphological characterization of LiFePO4/C Composite cathode materials synthesized via a carboxylic acid route
Fey GTK, Lu TL |
| 815 - 820 |
Preparation and electrochemical characterization of electrospun, microporous membrane-based composite polymer electrolytes for lithium batteries
Kim JK, Cheruvally G, Li X, Ahn JH, Kim KW, Ahn HJ |
| 821 - 825 |
Novel weakly coordinating heterocyclic anions for use in lithium batteries
Armand M, Johansson P |
| 826 - 831 |
Improvement of structural and electrochemical properties of AlF3-coated Li[Ni1/3Co1/3Mn1/3]O-2 cathode materials on high voltage region
Park BC, Kim HB, Myung ST, Amine K, Belharouak I, Lee SM, Sun YK |
| 832 - 836 |
Effect of organic additives on the cycling performances of lithium metal polymer cells
Choi JA, Eo SM, MacFarlane DR, Forsyth M, Cha E, Kim DW |
| 837 - 841 |
Study on cycling performances of lithium-ion polymer cells assembled by in situ chemical cross-linking with star-shaped siloxane acrylate
Kim W, Cho JJ, Kang Y, Kim DW |
| 842 - 847 |
Impact of synthesis conditions on the structure and performance of Li2FeSiO4
Dominko R, Conte DE, Hanzel D, Gaberscek M, Jamnik J |
| 848 - 851 |
Gelled membranes for Li and Li-ion batteries prepared by electrospinning
Bansal D, Meyer B, Salomon M |
| 852 - 856 |
The discharge properties of Na/Ni3S2 cell at ambient temperature
Kim JS, Ahn HJ, Ryu HS, Kim DJ, Cho GB, Kim KW, Nam TH, Ahn JH |
