| 1 - 12 |
Strategic enzyme patterning for microfluidic biofuel cells
Kjeang E, Sinton D, Harrington DA |
| 13 - 17 |
Dynamic behaviour of 5-W direct methanol fuel cell stack
Yoo JH, Choi HG, Nam JD, Lee Y, Chung CH, Lee ES, Lee JK, Cho SM |
| 18 - 24 |
Direct ethanol fuel cell (DEFC): Electrical performances and reaction products distribution under operating conditions with different platinum-based anodes
Rousseau S, Coutanceau C, Lamy C, Leger JM |
| 25 - 35 |
Three-dimensional transport model of PEM fuel cell with straight flow channels
Liu XL, Tao WQ, Li ZY, He YL |
| 36 - 44 |
Colloidal Au and Au-alloy catalysts for direct borohydride fuel cells: Electrocatalysis and fuel cell performance
Atwan MH, Macdonald CLB, Northwood DO, Gyenge EL |
| 45 - 51 |
Interpretation of the interconnected microstructure of an NiO-YSZ anode composite for solid oxide fuel cells via impedance spectroscopy
Lee KR, Pyo YS, So BS, Kim SM, Lee BK, Hwang JH, Kim J, Lee JH, Lee HW |
| 52 - 59 |
Cycle analysis of planar SOFC power generation with serial connection of low and high temperature SOFCs
Araki T, Ohba T, Takezawa S, Onda K, Sakaki Y |
| 60 - 68 |
High throughput evaluation of perovskite-based anode catalysts for direct methanol fuel cells
Deshpande K, Mukasyan A, Varma A |
| 69 - 77 |
Chemical and radiation crosslinked polymer electrolyte membranes prepared from radiation-grafted ETFE films for DMFC applications
Chen JH, Asano M, Yamaki T, Yoshida M |
| 78 - 87 |
Reactant gas transport and cell performance of proton exchange membrane fuel cells with tapered flow field design
Liu HC, Yan WM, Soong CY, Chen F, Chu HS |
| 88 - 93 |
Preparation and properties of novel sulfonated poly(phthalazinone ether ketone) based PEM for PEM fuel cell application
Tian SH, Shu D, Chen YL, Xiao M, Meng YZ |
| 94 - 102 |
Experimental determination of effective surface area and conductivities in the porous anode of molten carbonate fuel cell
Yoshikawa M, Boden A, Sparr M, Lindbergh G |
| 103 - 109 |
Organic-inorganic composites based on room temperature ionic liquid and 12-phosphotungstic acid salt with high assistant catalysis and proton conductivity
Li ZY, Zhang Q, Liu HT, He P, Xu XD, Li JH |
| 110 - 123 |
Dynamic characteristics of spherical agglomerate for study of cathode catalyst layers in proton exchange membrane fuel cells (PEMFC)
Rao RM, Rengaswamy R |
| 124 - 128 |
Electro-oxidation of methanol and ethanol using a Pt-RuO2/C composite prepared by the sol-gel technique and supported on boron-doped diamond
Suffredini HB, Tricoli V, Vatistas N, Avaca LA |
| 129 - 136 |
Characterization of a high performing passive direct formic acid fuel cell
Ha S, Dunbar Z, Masel RI |
| 137 - 142 |
Sulfonic-functionalized heteropolyacid-silica nanoparticles for high temperature operation of a direct methanol fuel cell
Kim HJ, Shul YG, Han H |
| 143 - 147 |
Design of low-humidification PEMFC by using cell simulator and its power generation verification test
Yoshikawa Y, Matsuura T, Kato M, Hori M |
| 148 - 153 |
Combustion synthesis of Sm0.5Sr0.5CoO3-x and La0.6Sr0.4CoO3-x nanopowders for solid oxide fuel cell cathodes
Bansal NP, Zhong ZM |
| 154 - 159 |
Durability investigation of carbon nanotube as catalyst support for proton exchange membrane fuel cell
Wang X, Li WZ, Chen ZW, Waje M, Yan YS |
| 160 - 163 |
Layer-by-layer films of chitosan, poly(vinyl sulfonic acid), and platinum for methanol electrooxidation and oxygen electroreduction
Cogo LC, Batisti MV, Pereira-Da-Silva MA, Oliveira ON, Nart FC, Huguenin F |
| 164 - 168 |
Methanol and ethanol electroxidation using Pt electrodes prepared by the polymeric precursor method
Freitas RG, Santos MC, Oliveira RTS, Bulhoes LOS, Pereira EC |
| 169 - 176 |
Performance of miniaturized direct methanol fuel cell (DMFC) devices using micropump for fuel delivery
Zhang T, Wang QM |
| 177 - 187 |
Characterisation of a portable DMFC stack and a methanol-feeding concept
Oedegaard A, Hentschel C |
| 188 - 199 |
A comparative study on life cycle analysis of molten carbon fuel cells and diesel engines for marine application
Alkaner S, Zhou PL |
| 200 - 205 |
Gas-phase mass-transfer resistance at PEMFC electrodes Part 1. Diffusive and forced migration through a porous medium
Arato E, Costa P |
| 206 - 212 |
Gas-phase mass-transfer resistance at PEMFC electrodes Part 2. Effects of the flow geometry and the related pressure field
Arato E, Pinna M, Costa P |
| 213 - 224 |
Analysis of a molten carbonate fuel cell: Numerical modeling and experimental validation
Brouwer J, Jabbari F, Leal EM, Orr T |
| 225 - 244 |
Design and partial load exergy analysis of hybrid SOFC-GT power plant
Calise F, Palombo A, Vanoli L |
| 245 - 253 |
Predictive control of solid oxide fuel cells using fuzzy Hammerstein models
Jurado F |
| 254 - 262 |
Durability of (Pr0.7Sr0.3)MnO3 +/-delta/8YSZ composite cathodes for solid oxide fuel cells
An K, Reifsnider KL, Gao CY |
| 263 - 273 |
Effects of coal syngas and H2S on the performance of solid oxide fuel cells: Single-cell tests
Trembly JP, Marquez AI, Ohrn TR, Bayless DJ |
| 274 - 286 |
Modeling and simulation of a PEM fuel cell stack considering temperature effects
Shan Y, Choe SY |
| 287 - 294 |
Modeling of thermal stresses and probability of survival of tubular SOFC
Nakajo A, Stiller C, Harkegard G, Bolland O |
| 295 - 302 |
Multi-physics simulations of fuel cells using multi-component modeling
Smirnov A, Burt A, Celik I |
| 303 - 315 |
Control strategy for a solid oxide fuel cell and gas turbine hybrid system
Stiller C, Thorud B, Bolland O, Kandepu R, Imsland L |
| 316 - 325 |
Investigation of water transport through membrane in a PEM fuel cell by water balance experiments
Yan QG, Toghiani H, Wu JX |
| 326 - 332 |
A novel technique for measuring current distributions in PEM fuel cells
Sun H, Zhang GS, Guo LJ, Liu HT |
| 333 - 347 |
Exergy analysis of a solid oxide fuel cell micropowerplant
Hotz N, Senn SM, Poulikakos D |
| 348 - 353 |
Effects of cathode open area and relative humidity on the performance of air-breathing polymer electrolyte membrane fuel cells
Jeong SU, Cho EA, Kim HJ, Lim TH, Oh IH, Kim SH |
| 354 - 360 |
Oxidation kinetics and phase evolution of a Fe-16Cr alloy in simulated SOFC cathode atmosphere
Jian P, Jian L, Bing H, Xie GY |
| 361 - 367 |
Performance characteristics of a MW-class SOFC/GT hybrid system based on a commercially available gas turbine
Song TW, Sohn JL, Kim TS, Ro ST |
| 368 - 377 |
Electrooxidation of coal slurries on different electrode materials
Patil P, De Abreu Y, Botte GG |
| 378 - 384 |
Innovative design to improve the power density of a solid oxide fuel cell
Ramakrishna PA, Yang S, Sohn CH |
| 385 - 391 |
Matching of critical parameters in a small non-pressurized non-humidified PEMFC stack
Chan SH, Xia ZT, Wei ZD |
| 392 - 396 |
Test system design for Hardware-in-Loop evaluation of PEM fuel cells and auxiliaries
Randolf G, Moore RM |
| 397 - 402 |
Study of electrodeposited polypyrrole coatings for the corrosion protection of stainless steel bipolar plates for the PEM fuel cell
Garcia MAL, Smit MA |
| 403 - 416 |
The financial viability of an SOFC cogeneration system in single-family dwellings
Alanne K, Saari A, Ugursal VI, Good J |
| 417 - 427 |
Sensitivity analysis of a Vision 21 coal based zero emission power plant
Verma A, Rao AD, Samuelsen GS |
| 428 - 435 |
System modeling of an air-independent solid oxide fuel cell system for unmanned undersea vehicles
Burke AA, Carreiro LG |
| 436 - 445 |
Fuel cells: A utilities perspective
Hessenius CA, Ang A, Hamilton S |
| 446 - 454 |
A polymer electrolyte fuel cell life test: 3 years of continuous operation
Cleghorn SJC, Mayfield DK, Moore DA, Moore JC, Rusch G, Sherman TW, Sisofo NT, Beuscher U |
| 455 - 463 |
Performance analysis on various system layouts for the combination of an ambient pressure molten carbonate fuel cell and a gas turbine
Oh KS, Kim TS |
| 464 - 476 |
Ni and Ni-Mo hydrogen evolution electrocatalysts electrodeposited in a polyaniline matrix
Damian A, Omanovic S |
| 477 - 484 |
Catalytic activity of molybdenum carbide for hydrogen generation via diesel reforming
Cheekatamarla PK, Thomson WJ |
| 485 - 496 |
Steam reforming of methane over unsupported nickel catalysts
Rakass S, Oudghiri-Hassani H, Rowntree P, Abatzoglou N |
| 497 - 503 |
Comparison of conversion and deposit formation of ethanol and butane under SOFC conditions
Gupta GK, Dean AM, Ahn K, Gorte RJ |
| 504 - 508 |
Selective CO oxidation in the presence of H-2 over Pt and Pt-Sn catalysts supported on niobia
Marques P, Ribeiro NFP, Schmal M, Aranda DAG, Souza MMVM |
| 509 - 517 |
Poly(ethyl methacrylate) and poly(2-ethoxyethyl methacrylate) based polymer gel electrolytes
Reiter J, Michalek J, Vondrak J, Chmelikova D, Pradny M, Micka Z |
| 518 - 523 |
Structural and electrochemical properties of nanocrystalline LixMn2O4 thin film cathodes (x=1.0-1.4)
Das SR, Fachini IR, Majumder SB, Katiyar RS |
| 524 - 528 |
Stannum doping of layered LiNi3/8Co2/8Mn3/8O2 cathode materials with high rate capability for Li-ion batteries
Li JG, He XM, Zhao RS, Wan CR, Jiang CY, Xia DG, Zhang SC |
| 529 - 534 |
Synthetic optimization of spherical LiCoO2 and precursor via uniform-phase precipitation
He P, Wang HR, Qi L, Osaka T |
| 535 - 542 |
Thermal behavior of small lithium-ion battery during rapid charge and discharge cycles
Onda K, Ohshima T, Nakayama M, Fukuda K, Araki T |
| 543 - 549 |
Preparation and characterization of high-density spherical Li0.97Cr0.01FePO4/C cathode material for lithium ion batteries
Ying JR, Lei M, Jiang CY, Wan CR, He XM, Li JJ, Wang L, Ren JG |
| 550 - 556 |
Kinetic study on low-temperature synthesis of LiFePO4 via solid-state reaction
Chang HH, Chang CC, Wu HC, Guo ZZ, Yang MH, Chiang YP, Sheu HS, Wu NL |
| 557 - 563 |
Silicon and carbon based composite anodes for lithium ion batteries
Datta MK, Kumta PN |
| 564 - 570 |
Evaluation of GPE performances in lithium metal battery technology by means of simple polarization tests
Sannier L, Bouchet R, Rosso M, Tarascon JM |
| 571 - 577 |
TiO2 (B)/activated carbon non-aqueous hybrid system for energy storage
Brousse T, Marchand R, Taberna PL, Simon P |
| 578 - 582 |
2-cyanofuran - A novel vinylene electrolyte additive for PC-based electrolytes in lithium-ion batteries
Korepp C, Santner HJ, Fujii T, Ue M, Besenhard JO, Moller KC, Winter M |
| 583 - 590 |
LiNi0.5Mn1.5O4 thick-film electrodes prepared by electrophoretic deposition for use in high voltage lithium-ion batteries
Caballero A, Hernan L, Melero M, Morales J, Moreno R, Ferrari B |
| 591 - 599 |
Analysis of the passive surface film on a graphite electrode charged in polysiloxane-based electrolyte
Nakahara H, Yoon SY, Piao T, Mansfeld F, Nutt S |
| 600 - 607 |
Effect of an additive to polysiloxane-based electrolyte on passive film formation on a graphite electrode
Nakahara H, Yoon SY, Nutt S |
| 608 - 613 |
LiMn2O4 cathode materials synthesized by the cellulose-citric acid method for lithium ion batteries
Shen PZ, Jia DZ, Huang YD, Liu L, Guo ZP |
| 614 - 619 |
Study of multiple interactions in mesoporous composite PEO electrolytes
Reddy MJ, Chu PP, Rao UVS |
| 620 - 626 |
The effect of compositional change of transition metals on the electrochemical behavior of layered LiMO2 (M = LiwNixCoyMnz) solid solutions
Jin SJ, Song CH, Park KS, Stephan AM, Nahm KS, Lee YS, Kim JK, Chung HT |
| 627 - 634 |
Effect of molecular sieves ZSM-5 on the crystallization behavior of PEO-based composite polymer electrolyte
Xi JY, Qiu XP, Wang JS, Bai YX, Zhu WT, Chen LQ |
| 635 - 640 |
On the lithiation-delithiation of tin and tin-based intermetallic compounds on carbon paper current collector-substrate
Arbizzani C, Beninati S, Lazzari A, Mastragostino M |
| 641 - 645 |
Effect of (Al, Mg) substitution in LiNiO2 electrode for lithium batteries
Kim J, Kim BH, Baik YH, Chang PK, Park HS, Amine K |
| 646 - 649 |
Redox behavior and surface characterization of LiFePO4 in lithium hydroxide electrolyte
Manickam M, Singh P, Thurgate S, Prince K |
| 650 - 653 |
Si-Ni alloy-graphite composite synthesized by arc-melting and high-energy mechanical milling for use as an anode in lithium-ion batteries
Park MS, Rajendran S, Kang YM, Han KS, Han YS, Lee JY |
| 654 - 658 |
Synthesis and characterization of high tap-density layered Li[Ni1/3Co1/3Mn1/3]O-2 cathode material via hydroxide co-precipitation
Luo XF, Wang XY, Liao L, Gamboa S, Sebastian PJ |
| 659 - 662 |
Nanostructured manganese oxides as lithium battery cathode materials
Liu P, Lee SH, Yan YF, Tracy CE, Turner JA |
| 663 - 672 |
Predicting current flow in spiral wound cell geometries
Reimers JN |
| 673 - 678 |
Mechanical-electrochemical modeling of Li-ion battery designed for an electric scooter
Khateeb SA, Farid MM, Selman JR, Al-Hallaj S |
| 679 - 688 |
Cycle life performance of lithium-ion pouch cells
Kumaresan K, Guo QZ, Ramadass P, White RE |
| 689 - 704 |
Thermal runaway in VRLAB - Phenomena, reaction mechanisms and monitoring
Pavlov D, Monahov B, Kirchev A, Valkovska D |
| 705 - 709 |
The efffects of different additives in electrolyte of AGM batteries on self-discharge
Yazd MS, Molazemi A, Moayed MH |
| 710 - 721 |
Shrinking core discharge model for the negative electrode of a lead-acid battery
Vijayasekaran B, Basha CA |
| 722 - 729 |
The Na0.60CoO2 phase, a potential conductive additive for the positive electrode of Ni-MH cells
Tronel F, Guerlou-Demourgues L, Basterreix M, Delmas C |
| 730 - 734 |
Hydrogen absorption and electrochemical properties of Mg2Ni-type alloys synthesized by mechanical alloying
Simicic MV, Zdujic M, Dimitrijevic R, Nikolic-Bujanovic L, Popovic NH |
| 735 - 739 |
Oxygen reduction reaction on nanosized manganese oxide particles dispersed on carbon in alkaline solutions
Calegaro ML, Lima FHB, Ticianelli EA |
| 740 - 746 |
Use of waste heat of TIEC as the power source for AMTEC
Lodhi MAK, Mustafa A |
| 747 - 753 |
Evaluation of different approaches for improving the cycle life of MgNi-based electrodes for Ni-MH batteries
Rongeat C, Grosjean MH, Ruggeri S, Dehmas A, Bourlot S, Marcotte S, Roue L |
| 754 - 759 |
Recycling of nickel from NiOOH/Ni(OH)(2) electrodes of spent Ni-Cd batteries
Rozario A, Silva RKSE, Freitas MBJG |
| 760 - 764 |
Performance and cycle life test results of a PEVE first-generation prismatic nickel/metal-hydride battery pack
Potter BG, Duong TQ, Bloom I |
| 765 - 772 |
Effect of pore size and surface area of carbide derived carbons on specific capacitance
Chmiola J, Yushin G, Dash R, Gogotsi Y |
| 773 - 778 |
Room temperature molten salt as electrolyte for carbon nanotube-based electric double layer capacitors
Xu B, Wu F, Chen RJ, Cao GP, Chen S, Wang GQ, Yang YS |
| 779 - 783 |
Synthesis of the CoOOH fine nanoflake film with the high rate capacitance property
Hosono E, Fujihara S, Honma I, Ichihara M, Zhou HS |
| 784 - 788 |
Studies on preparation and performances of carbon aerogel electrodes for the application of supercapacitor
Li J, Wang XY, Huang QH, Gamboa S, Sebastian PJ |
| 789 - 794 |
Poly(3-methyl thiophene)/PVDF composite as an electrode for supercapacitors
Fonseca CP, Benedetti JE, Neves S |
| 795 - 800 |
Investigation of pseudocapacitive properties of RuO2 film electrodes prepared by polymeric precursor method
Rosario AV, Bulhoes LOS, Pereira EC |
| 801 - 805 |
A new electrode consisting of Prussian blue/Dibenzo-18-crown-6 ion-pair complex for electrochemical capacitor applications
Jayalakshmi M, Radhika P, Rao MM |
| 806 - 814 |
Control strategy of fuel cell/supercapacitors hybrid power sources for electric vehicle
Thounthong P, Rael S, Davat B |
