| 1 - 4 |
Investigation into the effects of sulfur on syngas reforming inside a solid oxide fuel cell
Li TS, Xu M, Gao CX, Wang BQ, Liu XY, Li BH, Wang WG |
| 5 - 8 |
Proton transfer in the interface of Nafion and sulfonated polypyrrolone
Zhang YW, Zhang ZG, Chen W, Liu CP, Xing W, Zhang SB |
| 9 - 18 |
An electrochemistry-based impedance model for lithium-ion batteries
Li SE, Wang BJ, Peng H, Hu XS |
| 19 - 38 |
Li3V2(PO4)(3) cathode materials for lithium-ion batteries: A review
Rui XH, Yan QY, Skyllas-Kazacos M, Lim TM |
| 39 - 45 |
Electrospun silicon/carbon/titanium oxide composite nanofibers for lithium ion batteries
Wu QL, Tran T, Lu WQ, Wu J |
| 46 - 53 |
Pulsed sonication for alumina coatings on high-capacity oxides: Performance in lithium-ion cells
Pol VG, Li Y, Dogan F, Secor E, Thackeray MM, Abraham DP |
| 54 - 60 |
A new class of amorphous cathode active material LixMyPOz (M = Ni, Cu, Co, Mn, Au, Ag, Pd)
Sabi Y, Sato S, Hayashi S, Furuya T, Kusanagi S |
| 61 - 75 |
Electrochemical characterization and post-mortem analysis of aged LiMn2O4-NMC/graphite lithium ion batteries part II: Calendar aging
Stiaszny B, Ziegler JC, Krauss EE, Zhang MJ, Schmidt JP, Ivers-Tiffee E |
| 76 - 82 |
SrMo0.9Co0.1O3-delta: A potential anode for intermediate-temperature solid-oxide fuel cells (IT-SOFC)
Martinez-Coronado R, Alonso JA, Fernandez-Diaz MT |
| 83 - 88 |
X-ray evaluation of the boundary between polymer electrolyte and platinum and carbon functionalization to conduct protons in polymer electrolyte fuel cells
Oka K, Ogura Y, Izumi Y |
| 89 - 97 |
A three-dimensional pore-scale model of the cathode electrode in polymer-electrolyte membrane fuel cell by lattice Boltzmann method
Molaeimanesh GR, Akbari MH |
| 98 - 107 |
Development and understanding of La0.85Sr0.15Cr1-xNixO3-delta anodes for La5.6WO11.4-delta-based Proton Conducting Solid Oxide Fuel Cells
Solis C, Navarrete L, Balaguer M, Serra JM |
| 108 - 116 |
Effects of anode fabrication parameters on the performance and redox behavior of solid oxide fuel cells
Timurkutluk B, Mat MD |
| 117 - 121 |
PtRu nanofiber alloy counter electrodes for dye-sensitized solar cells
Cai HY, Tang QW, He BL, Li PJ |
| 122 - 128 |
Effect of fuel utilization on the carbon monoxide poisoning dynamics of Polymer Electrolyte Membrane Fuel Cells
Perez LC, Koski P, Ihonen J, Sousa JM, Mendes A |
| 129 - 133 |
Silicon on conductive self-organized TiO2 nanotubes - A high capacity anode material for Li-ion batteries
Brumbarov J, Kunze-Liebhauser J |
| 134 - 141 |
A NiFeCu alloy anode catalyst for direct-methane solid oxide fuel cells
Wang W, Zhu HY, Yang GM, Park HJ, Jung DW, Kwak C, Shao ZP |
| 142 - 149 |
Feasibility study of using microfluidic platforms for visualizing bubble flows in electrolyzer gas diffusion layers
Arbabi F, Kalantarian A, Abouatallah R, Wang R, Wallace JS, Bazylak A |
| 150 - 154 |
An imidazolium-based polymerized ionic liquid via novel synthetic strategy as polymer electrolytes for lithium ion batteries
Yin K, Zhang ZX, Yang L, Hirano SI |
| 155 - 163 |
Discharge mechanism of the heat treated electrolytic manganese dioxide cathode in a primary Li/MnO2 battery: An in-situ and ex-situ synchrotron X-ray diffraction study
Dose WM, Sharma N, Donne SW |
| 164 - 181 |
Solid oxide electrolysis cell analysis by means of electrochemical impedance spectroscopy: A review
Nechache A, Cassir M, Ringuede A |
| 182 - 188 |
Cobalt containing crystallizing glass seals for solid oxide fuel cells -A new strategy for strong adherence to metals and high thermal expansion
Thieme C, Russel C |
| 189 - 194 |
Electrochemical reduction of carbon dioxide: IV dependence of the Faradaic efficiency and current density on the microstructure and thickness of tin electrode
Wu JJ, Sharma PP, Harris BH, Zhou XD |
| 195 - 203 |
High throughput measurement of high temperature strength of ceramics in controlled atmosphere and its use on solid oxide fuel cell anode supports
Frandsen HL, Curran DJ, Rasmussen S, Hendriksen PV |
| 204 - 209 |
Three-dimensional macroporous anodes based on stainless steel fiber felt for high-performance microbial fuel cells
Hou JX, Liu ZL, Yang SQ, Zhou Y |
| 210 - 217 |
Capacity fade of LiAlyNi1-x-yCoxO2 cathode for lithium-ion batteries during accelerated calendar and cycle life tests (surface analysis of LiAlyNi1-x-yCoxO2 cathode after cycle tests in restricted depth of discharge ranges)
Watanabe S, Kinoshita M, Hosokawa T, Morigaki K, Nakura K |
| 218 - 227 |
Determination of lithium-ion battery state-of-health based on constant-voltage charge phase
Eddahech A, Briat O, Vinassa JM |
| 228 - 237 |
A unified open-circuit-voltage model of lithium-ion batteries for state-of-charge estimation and state-of-health monitoring
Weng CH, Sun J, Peng H |
| 238 - 245 |
Fabrication of gas diffusion electrodes via electrophoretic deposition for high temperature polymer electrolyte membrane fuel cells
Felix C, Jao TC, Pasupathi S, Linkov VM, Pollet BG |
| 246 - 252 |
Monodisperse porous LiFePO4/C microspheres derived by microwave-assisted hydrothermal process combined with carbothermal reduction for high power lithium-ion batteries
Chen RR, Wu YX, Kong XY |
| 253 - 259 |
Robustness of amorphous silicon during the initial lithiation/delithiation cycle
Berla LA, Lee SW, Ryu I, Cui Y, Nix WD |
| 260 - 265 |
Highly porous Fe3O4-Fe nanowires grown on C/TiC nanofiber arrays as the high performance anode of lithium-ion batteries
Cheng K, Yang F, Ye K, Zhang Y, Jiang X, Yin JL, Wang GL, Cao DX |
| 266 - 271 |
Structural evolution and electrochemistry of monoclinic NaNiO2 upon the first cycling process
Han MH, Gonzalo E, Casas-Cabanas M, Rojo T |
| 272 - 280 |
Swelling agent adopted decal transfer method for membrane electrode assembly fabrication
Cho DH, Lee SY, Shin DW, Hwang DS, Lee YM |
| 281 - 289 |
Sr and Zr diffusion in LSCF/10GDC/8YSZ triplets for solid oxide fuel cells (SOFCs)
Wang FF, Nishi M, Brito ME, Kishimoto H, Yamaji K, Yokokawa H, Horita T |
| 290 - 296 |
Synthesis of porous graphene/activated carbon composite with high packing density and large specific surface area for supercapacitor electrode material
Zheng C, Zhou XF, Cao HL, Wang GH, Liu ZP |
| 297 - 304 |
Instability and growth of nanoscale Ce0.8Gd0.2O1.9/NiO infiltrate in Sr0.94Ti0.9Nb0.1O3-Zr0.84Y0.16O1.92 anodes for solid oxide fuel cells
Zhang W, Kuhn LT, Jorgensen PS, Sudireddy BR, Bentzen JJ, Bernuy-Lopez C, Veltze S, Ramos T |
| 305 - 313 |
Green synthesis of mesoporous ZnFe2O4/C composite microspheres as superior anode materials for lithium-ion batteries
Yao LM, Hou XH, Hu SJ, Wang J, Li M, Su C, Tade MO, Shao ZP, Liu X |
| 314 - 320 |
Structural and electrochemical stability of Li-rich layer structured Li2MoO3 in air
Ma J, Gao YR, Wang ZX, Chen LQ |
| 321 - 339 |
Critical review of the methods for monitoring of lithium-ion batteries in electric and hybrid vehicles
Waag W, Fleischer C, Sauer DU |
| 340 - 350 |
Modeling of volume change phenomena in a Li-air battery
Yoo K, Banerjee S, Dutta P |
| 351 - 355 |
Perfluoropolyether-functionalized gas diffusion layers for proton exchange membrane fuel cells
Gola M, Sansotera M, Navarrini W, Bianchi CL, Stampino PG, Latorrata S, Dotelli G |
| 356 - 364 |
Structural evolution in LiFePO4-based battery materials: In-situ and ex-situ time-of-flight neutron diffraction study
Bobrikov IA, Balagurov AM, Hu CW, Lee CH, Chen TY, Deleg S, Balagurov DA |
| 365 - 373 |
Optimal charge control strategies for stationary photovoltaic battery systems
Li JH, Danzer MA |
| 374 - 381 |
Modeling of steady-state convective cooling of cylindrical Li-ion cells
Shah K, Drake SJ, Wetz DA, Ostanek JK, Miller SP, Heinzel JM, Jain A |
| 382 - 390 |
Failure analysis of electrolyte-supported solid oxide fuel cells
Fleischhauer F, Tiefenauer A, Graule T, Danzer R, Mai A, Kuebler J |
| 391 - 394 |
Effect of nickel impregnated hollow fiber anode for micro tubular solid oxide fuel cells
He BB, Ling YH, Xu JM, Zhao L, Cheng JG |
| 395 - 407 |
Power split strategies for hybrid energy storage systems for vehicular applications
Santucci A, Sorniotti A, Lekakou C |
| 408 - 419 |
Cell degradation in commercial LiFePO4 cells with high-power and high-energy designs
Dubarry M, Truchot C, Liaw BY |
| 420 - 423 |
High sodium ion conductivity of glass ceramic electrolytes with cubic Na3PS4
Hayashi A, Noi K, Tanibata N, Nagao M, Tatsumisago M |
| 424 - 433 |
Electrochemical performance of V-doped spinel Li4Ti5O12/C composite anode in Li-half and Li4Ti5O12/LiFePO4-full cell
Yang CC, Hu HC, Lin SJ, Chien WC |
| 434 - 440 |
A thermally self-sustained micro-power plant with integrated micro-solid oxide fuel cells, micro-reformer and functional micro-fluidic carrier
Scherrer B, Evans A, Santis-Alvarez AJ, Jiang B, Martynczuk J, Galinski H, Nabavi M, Prestat M, Tolke R, Bieberle-Hutter A, Poulikakos D, Muralt P, Niedermann P, Dommann A, Maeder T, Heeb P, Straessle V, Muller C, Gauckler LJ |
