| 1 - 8 |
An alkaline direct borohydride fuel cell with hydrogen peroxide as oxidant
Choudhury NA, Raman RK, Sampath S, Shukla AK |
| 9 - 16 |
Effect of higher operating pressure on the net change in voltage of a proton exchange membrane fuel cell under various operating conditions
Kazim A |
| 17 - 23 |
PtRu-LiCoO2 - an efficient catalyst for hydrogen generation from sodium borohydride solutions
Krishnan P, Yang TH, Lee WY, Kim CS |
| 24 - 29 |
Phase and microstructure stabilities of LiAlO2 in molten Li/Na carbonate for molten carbonate fuel cells
Kim SD, Hyun SH, Shin MY, Lim TH, Hong SA, Lim HC |
| 30 - 35 |
An experimental and modeling based investigation into the high stoichiometric flow rates required in direct methanol fuel cells
Cowart JS |
| 36 - 47 |
Analysis of reactant gas transport in a PEM fuel cell with partially blocked fuel flow channels
Soong CY, Yan WM, Tseng CY, Liu HC, Chen FL, Chu HS |
| 48 - 56 |
Transient analysis of reactant gas transport and performance of PEM fuel cells
Yan WM, Soong CY, Chen FL, Chu HS |
| 57 - 66 |
Improved fuel utilization in microfluidic fuel cells: A computational study
Bazylak A, Sinton D, Djilali N |
| 67 - 74 |
Magnetotomography - a new method for analysing fuel cell performance and quality
Hauer KH, Potthast R, Wuster T, Stolten D |
| 75 - 83 |
Detailed characteristic comparison between planar and MOLB-type SOFCs
Hwang JJ, Chen CK, Lai DY |
| 84 - 92 |
A new candidate cathode material as (Co/Mg)-coated Ni powder for molten carbonate fuel cell
Park E, Hong MZ, Lee H, Kim M, Kim K |
| 93 - 102 |
Measuring the through-plane electrical resistivity of bipolar plates (apparatus and methods)
Cunningham N, Lefevre M, Lebrun G, Dodelet JP |
| 103 - 124 |
Three-dimensional model of a complete polymer electrolyte membrane fuel cell - model formulation, validation and parametric studies
Lum KW, McGuirk JJ |
| 125 - 135 |
PEM fuel cell performance and its two-phase mass transport
Sun H, Liu HT, Guo LJ |
| 136 - 141 |
Composite Nafion/polyphenylene oxide (PPO) membranes with phosphomolybdic acid (PMA) for direct methanol fuel cells
Sauk J, Byun J, Kim H |
| 142 - 149 |
Novel anode structure for the direct methanol fuel cell
Allen RG, Lim C, Yang LX, Scott K, Roy S |
| 150 - 157 |
Diagnostic tools for liquid water in PEM fuel cells
Stumper E, Lohr M, Hamada S |
| 158 - 165 |
Radiation heat transfer in SOFC materials and components
Damm DL, Fedorov AG |
| 166 - 172 |
Large limits of electrical efficiency in hydrocarbon fueled SOFCs
Sidwell RW, Coors WG |
| 173 - 178 |
An approximate closed form solution for pressure and velocity distribution in the cathode chamber of a PEM fuel cell
Maddirala VK, Subramanian VR |
| 179 - 184 |
Optimization of a combined heat and power PEFC by exergy analysis
Saidi MH, Ehyaei MA, Abbasi A |
| 185 - 190 |
Medium-term stability testing of proton exchange membrane fuel cell stacks as independent power units
Dhar HP |
| 191 - 196 |
The US Department of Energy, Office of Fossil Energy stationary fuel cell program
Williams MC, Strakey JP, Surdoval WA |
| 197 - 202 |
Electrochemical impedance study of graphite/electrolyte interface formed in LiBOB/PC electrolyte
Xu K, Zhang SS, Jow R |
| 203 - 211 |
Stable crack growth in nanostructured Li-batteries
Aifantis KE, Dempsey JP |
| 212 - 218 |
Microstructure and electrochemical performance of LiNi(0.6)C(0.4-x)MnO(2)cathode materials
Liao PY, Duh JG, Sheen SR |
| 219 - 226 |
Solvent-free polymer electrolytes based on thermally annealed porous P(VdF-HFP)/P(EO-EQ membranes
Jeon JD, Cho BW, Kwak SY |
| 227 - 230 |
The Ni3Sn4 intermetallic as a novel electrode in lithium cells
Amadei I, Panero S, Scrosati B, Cocco G, Schiffini L |
| 231 - 235 |
Physicochemical and electrochemical characterization of anatase titanium dioxide nanoparticles
Liu ZL, Hong L, Guo B |
| 236 - 242 |
0.6 Ah Li/V2O5 battery prototypes based on solvent-free PEO-LiN(SO2CF2CF3)(2) polymer electrolytes
Appetecchi GB, Shin JH, Alessandrini F, Passerini S |
| 243 - 255 |
The structure and electrochemical performance of spherical Al-substituted alpha-Ni(OH)(2) for alkaline rechargeable batteries
Chen H, Wang JM, Pan T, Zhao YL, Zhang JQ, Cao CN |
| 256 - 264 |
The effect of carbon species on the properties of Fe/C composite for metal-air battery anode
Hang BT, Eashira M, Watanabe I, Okada S, Yamaki JI, Yoon SH, Mochida I |
| 265 - 269 |
Investigation into the deterioration in storage characteristics of nickel-metal hydride batteries during cycling
Shinyama K, Magari Y, Akita H, Kumagae K, Nakamura H, Matsuta S, Nohma T, Takee M, Ishiwa K |
| 270 - 274 |
Deposit morphology of the zinc recovery by electrodeposition from the spent Zn-MnO2 batteries
Freitas MBJG, de Pietre MK |
| 275 - 283 |
42V Power Net with supercapacitor and battery for automotive applications
Marie-Francoise JN, Gualous H, Outbib R, Berthon A |
