| 1 - 9 |
Electrochemical impedance spectroscopy study of Ce(IV) with aminopolycarboxylate ligands for redox flow batteries applications
Modiba P, Matoetoe M, Crouch AM |
| 10 - 23 |
A review on performance degradation of proton exchange membrane fuel cells during startup and shutdown processes: Causes, consequences, and mitigation strategies
Yu Y, Li H, Wang HJ, Yuan XZ, Wang GJ, Pan M |
| 24 - 31 |
Platinum nanowire network with silica nanoparticle spacers for use as an oxygen reduction catalyst
Shimizu W, Okada K, Fujita Y, Zhao SS, Murakami Y |
| 32 - 47 |
Effects of serpentine flow-field designs with different channel and rib widths on the performance of a direct methanol fuel cell
Park YC, Chippar P, Kim SK, Lim S, Jung DH, Ju H, Peck DH |
| 48 - 56 |
Two-dimensional charge transfer and space charge effects in extended surface solid oxide fuel cell electrodes
Nelson GJ, Cassenti BN, Peracchio AA, Chiu WKS |
| 57 - 62 |
Feasibility and mechanism of lithium oxide as sintering aid for Ce0.8Sm0.2O delta electrolyte
Li S, Xian CN, Yang K, Sun CW, Wang ZX, Chen LQ |
| 63 - 70 |
Carbon supported palladium hollow nanospheres as anode catalysts for direct borohydride-hydrogen peroxide fuel cells
Yi LH, Song YF, Wang XY, Yi LL, Hu JF, Su G, Yi W, Yan HL |
| 71 - 79 |
Electrocatalysis of Ni-promoted Cd coated graphite toward methanol oxidation in alkaline medium
Doner A, Telli E, Kardas G |
| 80 - 85 |
Electrical and electrocatalytic properties of a La0.8Sr0.2Co0.17Mn0.83O3-delta cathode for intermediate-temperature solid oxide fuel cells
Bai YH, Liu MF, Ding D, Blinn K, Qin WT, Liu J, Liu ML |
| 86 - 92 |
Study of transformer-based power management system and its performance optimization for microbial fuel cells
Yang F, Zhang DX, Shimotori T, Wang KC, Huang Y |
| 93 - 99 |
Synthesis of highly dispersed platinum/carbon catalyst using cetyltrimethyl ammonium bromide as a dispersant for proton exchange membrane fuel cells
Huang RH, Chao WK, Yu RS, Hsueh KL, Shieu FS |
| 100 - 107 |
Phase formation and properties of composite electrolyte BaCe0.8Y0.2O3-delta-Ce0.8Gd0.2O1.9 for intermediate temperature solid oxide fuel cells
Lin D, Wang QH, Peng KP, Shaw LL |
| 108 - 113 |
Use of anode barrier layers in tubular solid-oxide fuel cells for robust operation on hydrocarbon fuels
Rosensteel WA, Babiniec SM, Storjohann DD, Persky J, Sullivan NP |
| 114 - 121 |
Phosphoric acid doped imidazolium polysulfone membranes for high temperature proton exchange membrane fuel cells
Yang JS, Li QF, Jensen JO, Pan C, Cleemann LN, Bjerrum NJ, He RH |
| 122 - 128 |
Gd0.1Ce0.9O1.95/Er0.4Bi1.6O3 bilayered electrolytes fabricated by a simple colloidal route using nano-sized Er0.4Bi1.6O3 powders for high performance low temperature solid oxide fuel cells
Lee KT, Jung DW, Camaratta MA, Yoon HS, Ahn JS, Wachsman ED |
| 129 - 135 |
Synthesis and properties of Fe3O4/polyaniline and its tiny magnetic field functions during oxygen transfer processes
Shi JC, Xu HF, Zhao H, Lu L |
| 136 - 144 |
Pt nanoparticles supported on mesoporous carbon nanocomposites incorporated with Ni or Co nanoparticles for fuel cells
Su FB, Poh CK, Zeng JH, Zhong ZY, Liu ZL, Lin JY |
| 145 - 150 |
Conductivity and hydration of sulfonated polyethersulfone in the range 70-120 degrees C: Effect of temperature and relative humidity cycling
Donnadio A, Casciola M, Di Vona ML, Tamivanan M |
| 151 - 156 |
Hysteresis controller based maximum power point tracking energy harvesting system for microbial fuel cells
Park JD, Ren ZY |
| 157 - 163 |
Dense yttria-stabilised zirconia electrolyte layers for SOFC by reactive magnetron sputtering
Nedelec R, Uhlenbruck S, Sebold D, Haanappel VAC, Buchkremer HP, Stover D |
| 164 - 172 |
Advantageous combination of solid carbon paste and a conducting polymer film as a support of platinum electrocatalyst for methanol fuel cell
Gao H, He JB, Wang Y, Deng N |
| 173 - 179 |
Tailored heat transfer characteristics of pelletized LiNH2-MgH2 and NaAlH4 hydrogen storage materials
Pohlmann C, Rontzsch L, Hu JJ, Weissgarber T, Kieback B, Fichtner M |
| 180 - 187 |
Processing and characterization of CoO and Sm2O3 codoped ceria solid solution electrolyte
Yao HC, Zhao XL, Chen X, Wang JC, Ge QQ, Wang JS, Li ZJ |
| 188 - 193 |
Electrical energy generation from a large number of microbial fuel cells operating at maximum power point electrical load
Degrenne N, Buret F, Allard B, Bevilacqua P |
| 194 - 200 |
Thickness dependence of proton conductivity of anodic ZrO2-WO3-SiO2 nanofilms
Ye K, Aoki Y, Tsuji E, Nagata S, Habazaki H |
| 201 - 206 |
Binary oxide-doped Pt/RuO2-SiOx/C catalyst with high performance and self-humidification capability: The promotion of ruthenium oxide
Zeng Q, Zheng LP, Zeng JH, Liao SJ |
| 207 - 214 |
Investigation of methanol electrooxidation on Pt and Pt-Ru in H3PO4 using MEA with PBI-H3PO4 membrane
Modestov AD, Tarasevich MR, Pu HT |
| 215 - 221 |
Mechanistic analysis of highly active nitrogen-doped carbon nanotubes for the oxygen reduction reaction
Vazquez-Arenas J, Higgins D, Chen Z, Fowler M, Chen ZW |
| 222 - 230 |
New approach for the evaluation of membranes transport properties for polymer electrolyte membrane fuel cells
Brunetti A, Fontananova E, Donnadio A, Casciola M, Di Vona ML, Sgreccia E, Drioli E, Barbieri G |
| 231 - 234 |
Synthesis of Pt/Fe3O4-CeO2 catalyst with improved electrocatalytic activity for methanol oxidation
Sun HY, You JM, Yang MH, Qu FL |
| 235 - 238 |
Ex situ study of chloride contamination on carbon supported Pt catalyst
Lam A, Li H, Zhang SS, Wang HJ, Wilkinson DP, Wessel S, Cheng TTH |
| 239 - 243 |
Graphene nanosheets supported hollow Pt&CoSn(OH)(6) nanospheres as a catalyst for methanol electro-oxidation
Luo BM, Xu S, Yan XB, Xue QJ |
| 244 - 251 |
Degradation of the elastomeric gasket material in a simulated and four accelerated proton exchange membrane fuel cell environments
Li G, Tan JZ, Gong JM |
| 252 - 263 |
Dynamic optimization under uncertainty of the synthesis/design and operation/control of a proton exchange membrane fuel cell system
Kim K, von Spakovsky MR, Wang M, Nelson DJ |
| 264 - 271 |
Electrooxidation of ethanol on carbon-supported Pt-Pd nanoparticles
Seweryn J, Lewera A |
| 272 - 280 |
Dual-layer hollow fibres with different anode structures for micro-tubular solid oxide fuel cells
Othman MHD, Droushiotis N, Wu ZT, Kelsall G, Li K |
| 281 - 289 |
Flexible power control of fuel cells using sliding mode techniques
Inthamoussou FA, Mantz RJ, De Battista H |
| 290 - 300 |
Effect of open circuit voltage on degradation of a short proton exchange membrane fuel cell stack with bilayer membrane configurations
Zhang SS, Yuan XZ, Hiesgen R, Friedrich KA, Wang HJ, Schulze M, Haug A, Li H |
| 301 - 306 |
Chromate formation at the interface between a solid oxide fuel cell sealing glass and interconnect alloy
Zhang T, Brow RK, Fahrenholtz WG, Reis ST |
| 307 - 317 |
Joint strength of a solid oxide fuel cell glass-ceramic sealant with metallic interconnect
Lin CK, Chen JY, Tian JW, Chiang LK, Wu SH |
| 318 - 323 |
Composition optimization of arc ion plated CrNx films on 316L stainless steel as bipolar plates for polymer electrolyte membrane fuel cells
Zhang M, Lin GQ, Wu B, Shao ZG |
| 324 - 334 |
Degradation of a PEM fuel cell stack with Nafion (R) membranes of different thicknesses. Part II: Ex situ diagnosis
Yuan XZ, Zhang SS, Ban S, Huang C, Wang HJ, Singara V, Fowler M, Schulze M, Haug A, Friedrich KA, Hiesgen R |
| 335 - 339 |
Modeling and simulation of proton exchange membrane fuel cell systems
Beicha A |
| 340 - 344 |
Accelerated conditioning for a proton exchange membrane fuel cell
Yuan XZ, Sun JC, Wang HJ, Li H |
| 345 - 349 |
In situ monitoring of high-temperature proton exchange membrane fuel cell stack using flexible micro temperature and voltage sensors
Lee CY, Weng FB, Cheng CK, Chang CP |
| 350 - 353 |
Gas crossover leakage in high temperature polymer electrolyte fuel cells: In situ quantification and effect on performance
Galbiati S, Baricci A, Casalegno A, Marchesi R |
| 354 - 366 |
Coordinate operation of power sources in a doubly-fed induction generator wind turbine/battery hybrid power system
Sarrias R, Fernandez LM, Garcia CA, Jurado F |
| 367 - 376 |
A micro-reactor with micro-pin-fin arrays for hydrogen production via methanol steam reforming
Mei DQ, Qian M, Liu BH, Jin BA, Yao ZH, Chen ZC |
| 377 - 384 |
Demonstration of a highly efficient solid oxide fuel cell power system using adiabatic steam reforming and anode gas recirculation
Powell M, Meinhardt K, Sprenkle V, Chick L, McVay G |
| 385 - 393 |
Electrochemical investigations of the LiNi0.45M0.10Mn1.45O4 (M = Fe, Co, Cr) 5V cathode materials for lithium ion batteries
Zhong GB, Wang YY, Yu YQ, Chen CH |
| 394 - 401 |
Synthesis and electrode characteristics of solid solution LiMn1-xFexPO4(OH) (0 <= x <= 0.3) with tavorite structure for lithium batteries
Yang Y, Hirayama M, Kubota K, Kanno R |
| 402 - 407 |
Graphite and LiCo1/3Mn1/3Ni1/3O2 electrodes with piperidinium ionic liquid and lithium bis(fluorosulfonyl)imide for Li-ion batteries
Reiter J, Nadherna M, Dominko R |
| 408 - 413 |
Methyl tetrafluoro-2-(methoxy) propionate as co-solvent for propylene carbonate-based electrolytes for lithium-ion batteries
Schmitz R, Schmitz R, Muller R, Kazakova O, Kalinovich N, Roschenthaler GV, Winter M, Passerini S, Lex-Balducci A |
| 414 - 419 |
Highly ordered LiFePO4 cathode material for Li-ion batteries templated by surfactant-modified polystyrene colloidal crystals
Yim CH, Baranova EA, Abu-Lebdeh Y, Davidson I |
| 420 - 425 |
Influence of different electrode compositions and binder materials on the performance of lithium-sulfur batteries
Schneider H, Garsuch A, Panchenko A, Gronwald O, Janssen N, Novak P |
| 426 - 432 |
Gold-coated porous silicon films as anodes for lithium ion batteries
Thakur M, Isaacson M, Sinsabaugh SL, Wong MS, Biswal SL |
| 433 - 438 |
Silicon nanowire anode: Improved battery life with capacity-limited cycling
Chakrapani V, Rusli F, Filler MA, Kohl PA |
| 439 - 448 |
Performance of lithium tetrafluorooxalatophosphate (LiFOP) electrolyte with propylene carbonate (PC)
Zhou L, Lucht BL |
| 449 - 455 |
Effect of Mg-doping on the degradation of LiNiO2-based cathode materials by combined spectroscopic methods
Muto S, Tatsumi K, Kojima Y, Oka H, Kondo H, Horibuchi K, Ukyo Y |
| 456 - 462 |
Combustion synthesis and electrochemical performance of Li2FeSiO4/C cathode material for lithium-ion batteries
Dahbi M, Urbonaite S, Gustafsson T |
| 463 - 466 |
A novel method to fabricate nonstoichiometric LiFePO4/C core-shell composites
Fan Q, Tang YF, Chen YF |
| 467 - 473 |
The effect of metal silicide formation on silicon nanowire-based lithium-ion battery anode capacity
Cho JH, Li XL, Picraux ST |
| 474 - 478 |
Nano-carbon/sulfur composite cathode materials with carbon nanofiber as electrical conductor for advanced secondary lithium/sulfur cells
Rao MM, Song XY, Cairns EJ |
| 479 - 482 |
Highly dispersed Ag nanoparticles (< 10 nm) deposited on nanocrystalline Li4Ti5O12 demonstrating high-rate charge/discharge capability for lithium-ion battery
Liu ZM, Zhang NQ, Wang ZJ, Sun KN |
| 483 - 486 |
Proposal of novel equivalent circuit for electrochemical impedance analysis of commercially available lithium ion battery
Osaka T, Momma T, Mukoyama D, Nara H |
| 487 - 490 |
High-capacity thin film lithium batteries with sulfide solid electrolytes
Ogawa M, Kanda R, Yoshida K, Uemura T, Harada K |
| 491 - 494 |
Film-shaped sol-gel Li4Ti5O12 electrode for lithium-ion microbatteries
Mosa J, Velez JF, Lorite I, Arconada N, Aparicio M |
| 495 - 499 |
Mesoporous carbon-Cr2O3 composite as an anode material for lithium ion batteries
Guo BK, Chi MF, Sun XG, Dai S |
| 500 - 505 |
In situ investigation of the volume change and pulverization of hydride materials for Ni-MH batteries by concomitant generated force and acoustic emission measurements
Etiemble A, Idrissi H, Meille S, Roue L |
| 506 - 509 |
Properties of an intermediate temperature ionic liquid NaTFSA-CsTFSA and charge-discharge properties of NaCrO2 positive electrode at 423 K for a sodium secondary battery
Nohira T, Ishibashi T, Hagiwara R |
| 510 - 515 |
Electrochemical capacitors of miniature size with patterned carbon nanotubes and cobalt hydroxide
Chen CH, Tsai DS, Chung WH, Lee KY, Chen YM, Huang YS |
| 516 - 524 |
Constant-current regulator-based battery-supercapacitor hybrid architecture for high-rate pulsed load applications
Shin D, Kim Y, Wang YZ, Chang N, Pedram M |
| 525 - 529 |
Highly oriented hematite nanorods arrays for photoelectrochemical water splitting
de Carvalho VAN, Luz RAD, Lima BH, Crespilho FN, Leite ER, Souza FL |
