| 773 - 774 |
Selected papers presented at the International Workshop on Molten Carbonate Fuel Cells and Related Science and Technology 2005 - Preface
Cassir M |
| 775 - 781 |
Porous nickel MCFC cathode coated by potentio statically deposited cobalt oxide - II. Structural and morphological behavior in molten carbonate
Escudero MJ, Mendoza L, Cassir M, Gonzalez T, Daza L |
| 782 - 788 |
Corrosion of anode current collectors in molten carbonate fuel cells
Randstrom S, Lagergren C, Capobianco P |
| 789 - 795 |
Solubility and electrochemical studies of LiFeO2-LiCoO2-NiO materials for the MCFC cathode application
Ringuede A, Wijayasinghe A, Albin V, Lagergren C, Cassir M, Bergman B |
| 796 - 799 |
MCFC cathode dissolution: an alternative approach to face the problem
Bergaglio E, Capobianco P, Dellepiane S, Durante G, Scagliotti M, Valli C |
| 800 - 804 |
The role of temperature on the corrosion and passivation of type 310S stainless steel in eutectic (Li+K) carbonate melt
Frangini S, Loreti S |
| 805 - 810 |
Predictions of the optimum ternary alkali-carbonate electrolyte composition for MCFC by computational calculation
Kim SG, Jun JH, Jun J |
| 811 - 815 |
Effect of rare earth oxides for improvement of MCFC
Ota KI, Matsuda Y, Matsuzawa K, Mitsushima S, Kamiya N |
| 816 - 820 |
Characterization of Ni porous electrode covered by a thin film of LiMg0.05CO0.95O2
Simonetti E, Lo Presti R |
| 821 - 826 |
Morphological, structural and electrochemical analysis of sputter-deposited ceria and titania coatings for MCFC application
Albin V, Mendoza L, Goux A, Ringuede A, Billard A, Briois P, Cassir M |
| 827 - 834 |
Carbonate fuel cells: Milliwatts to megawatts
Farooque M, Maru HC |
| 835 - 841 |
MCFC and microturbine power plant simulation
Orecchini F, Bocci E, Di Carlo A |
| 842 - 845 |
Molten carbonate fuel cells: A high temperature fuel cell on the edge to commercialization
Bischoff M |
| 846 - 851 |
Molten carbonate fuel cell electrochemistry modelling
Bittanti S, Canevese S, De Marco A, Errigo A, Prandoni V |
| 852 - 857 |
Molten-salt fuel cells - Technical and economic challenges
Selman JR |
| 858 - 862 |
MCFC versus other fuel cells - Characteristics, technologies and prospects
Tomczyk P |
| 863 - 867 |
Distributed generation - Molten carbonate fuel cells
Williams MC, Maru HC |
| 868 - 871 |
Applicability of molten carbonate fuel cells to various fuels
Watanabe T, Izaki Y, Mugikura Y, Morita H, Yoshikawa M, Kawase M, Yoshiba F, Asano K |
| 872 - 891 |
High temperature PEM fuel cells
Zhang JL, Xie Z, Zhang JJ, Tanga YH, Song CJ, Navessin T, Shi ZQ, Song DT, Wang HJ, Wilkinson DP, Liu ZS, Holdcroft S |
| 892 - 896 |
Bismuth oxide doped scandia-stabilized zirconia electrolyte for the intermediate temperature solid oxide fuel cells
Sarat S, Sammes N, Smirnova A |
| 897 - 902 |
Ceria coated Ni as anodes for direct utilization of methane in low-temperature solid oxide fuel cells
Zhu W, Xia CR, Fan J, Peng RR, Meng GY |
| 903 - 908 |
Electrochemical performance of Nd0.6Sr0.4Co0.5Fe0.5O3-delta-Ag composite cathodes in intermediate temperature solid oxide fuel cells
Lee KT, Manthiram A |
| 909 - 914 |
Proton conductivity and chemical stability of Li2SO4 based electrolyte in a H2S-air fuel cell
Li J, Luo JL, Chuang KT, Sanger AR |
| 915 - 924 |
Characterization and evaluation of Pt-Ru catalyst supported on multi-walled carbon nanotubes by electrochemical impedance
Ocampo AL, Miranda-Hernandez M, Morgado J, Montoya JA, Sebastian PJ |
| 925 - 932 |
Performance of a direct methanol fuel cell (DMFC) at low temperature: Cathode optimization
Reshetenko TV, Kim HT, Lee H, Jang M, Kweon H |
| 933 - 939 |
The stability of a PtRu/C electrocatalyst at anode potentials in a direct methanol fuel cell
Chen WM, Sun GQ, Liang ZX, Mao Q, Li HQ, Wang GX, Xin Q, Chang H, Pak CH, Seung DY |
| 940 - 948 |
Electrocatalytic properties of monometallic and bimetallic nanoparticles-incorporated polypyrrole films for electro-oxidation of methanol
Selvaraj V, Alagar M, Hamerton I |
| 949 - 956 |
Polymer electrolyte membrane based on 2-acrylamido-2-methyl propanesulfonic acid fabricated by embedded polymerization
Pei HQ, Hong L, Lee JY |
| 957 - 968 |
The stability of Pt-M (M = first row transition metal) alloy catalysts and its effect on the activity in low temperature fuel cells - A literature review and tests on a Pt-Co catalyst
Antolini E, Salgado JRC, Gonzalez ER |
| 969 - 976 |
Synthesis and characterization of sulfonated poly(arylene ether ketone ketone sulfone) membranes for application in proton exchange membrane fuel cells
Wang Z, Li XF, Zhao CJ, Ni HZ, Na H |
| 977 - 986 |
Investigation of thermal and electrochemical degradation of fuel cell catalysts
Cai M, Ruthkosky MS, Merzougui B, Swathirajan S, Balogh MP, Oh SH |
| 987 - 990 |
NaBH4-assisted ethylene glycol reduction for preparation of carbon-supported Pt catalyst for methanol electro-oxidation
Kim P, Joo JB, Kim W, Kim J, Song IK, Yi J |
| 991 - 996 |
Microbial fuel cell constructed with a micro-organism isolated from sugar industry effluent
Prasad D, Sivaram TK, Berchmans S, Yegnaraman V |
| 997 - 1002 |
Carbon fibers with cup-stacked-type structure: An advantageous support for Pt-Ru catalyst in methanol oxidation
de Moraes IR, da Silva WJ, Tronto S, Rosolen JM |
| 1003 - 1008 |
A tubular direct methanol fuel cell with Ti mesh anode
Shao ZG, Lin WF, Zhu FY, Christensen PA, Zhang HM, Yi BL |
| 1009 - 1016 |
Promising alloys for intermediate-temperature solid oxide fuel cell interconnect application
Geng SJ, Zhu JH |
| 1017 - 1025 |
Gas-phase particle image velocimetry (PIV) for application to the design of fuel cell reactant flow channels
Yoon SY, Ross JW, Mench MM, Sharp KV |
| 1026 - 1034 |
Two dimensional modeling study of PBI/H3PO4 high temperature PEMFCs based on electrochemical methods
Hu JW, Zhang HM, Hu J, Zhai YF, Yi BL |
| 1035 - 1040 |
Effects of MEA preparation on the performance of a direct methanol fuel cell
Zhang J, Yin GP, Wang ZB, Shao YY |
| 1041 - 1048 |
Effects of porosity distribution variation on the liquid water flux through gas diffusion layers of PEM fuel cells
Zhan ZG, Xiao JS, Li DY, Pan M, Yuan RZ |
| 1049 - 1057 |
A braze system for sealing metal-supported solid oxide fuel cells
Tucker MC, Jacobson CP, De Jonghe LC, Visco SJ |
| 1058 - 1064 |
Passive direct formic acid microfabricated fuel cells
Yeom J, Jayashree RS, Rastogi C, Shannon MA, Kenis PJA |
| 1065 - 1073 |
A study of the process parameters for yttria-stabilized zirconia electrolyte films prepared by screen-printing
Zhang YH, Huang XQ, Lu Z, Liu ZG, Ge XD, Xu JH, Xin XS, Sha XQ, Su WH |
| 1074 - 1087 |
Thermal and electrochemical model of internal reforming solid oxide fuel cells with tubular geometry
Sanchez D, Chacartegui R, Munoz A, Sanchez T |
| 1088 - 1095 |
Electrical test methods for on-line fuel cell ohmic resistance measurement
Cooper KR, Smith M |
| 1096 - 1103 |
Performance analysis and impedance spectral signatures of high temperature PBI-phosphoric acid gel membrane fuel cells
Jalani NH, Ramani M, Ohlsson K, Buelte S, Pacifico G, Pollard R, Staudt R, Datta R |
| 1104 - 1110 |
Evaluation of Ni-Cr-base alloys for SOFC interconnect applications
Yang ZG, Xia GG, Stevenson JW |
| 1111 - 1121 |
Numerical simulation of a mini PEMFC stack
Liu ZX, Mao ZQ, Wang C, Zhuge WL, Zhang YJ |
| 1122 - 1130 |
Predictions of phase temperatures in a porous cathode of polymer electrolyte fuel cells using a two-equation model
Chao CH, Hwang AJJ |
| 1131 - 1141 |
A mathematical model for simulating methanol permeation and the mixed potential effect in a direct methanol fuel cell
Chen CH, Yeh TK |
| 1142 - 1155 |
Miniature DMFCs with passive thermal-fluids management system
Guo Z, Faghri A |
| 1156 - 1162 |
Characterization of transport properties in gas diffusion layers for proton exchange membrane fuel cells - 1. Wettability (internal contact angle to water and surface energy of GDL fibers)
Gurau V, Bluemle MJ, De Castro ES, Tsou YM, Mann JA, Zawodzinski TA |
| 1163 - 1169 |
Optimization of a water-gas shift reactor over a Pt/ceria/alumina monolith
Quiney AS, Germani G, Schuurman Y |
| 1170 - 1182 |
Dynamic modeling of proton exchange membrane fuel cell using non-integer derivatives
Iftikhar MU, Riu D, Druart F, Rosini S, Bultel Y, Retiere N |
| 1183 - 1194 |
Development of planar air breathing direct methanol fuel cell stacks
Guo Z, Faghri A |
| 1195 - 1203 |
Quantification of liquid water accumulation and distribution in a polymer electrolyte fuel cell using neutron imaging
Turhan A, Heller K, Brenizer JS, Mench MM |
| 1204 - 1210 |
A polyvinyl alcohol/p-sulfonate phenolic resin composite proton conducting membrane
Wu CS, Lin FY, Chen CY, Chu PP |
| 1211 - 1216 |
Sm0.5Sr0.5CoO3+Sm0.2Ce0.8O1.9 composite cathode for cermet supported thin Sm0.2Ce0.8O1.9 electrolyte SOFC operating below 600 degrees C
Zhang XG, Robertson M, Yick S, Deces-Petit C, Styles E, Qu W, Xie YS, Hui R, Roller J, Kesler O, Maric R, Ghosh D |
| 1217 - 1220 |
A screen-printed Ce0.8Sm0.2O1.9 film solid oxide fuel cell with a Ba0.5Sr0.5Co0.8Fe0.2O3-delta cathode
Zhang YH, Huang XQ, Lu Z, Liu ZG, Ge XD, Xu JH, Xin XS, Sha XQ, Su WH |
| 1221 - 1224 |
Solid oxide fuel cells with dense yttria-stabilized zirconia electrolyte membranes fabricated by a dry pressing process
Xin XS, Lu Z, Huang XQ, Sha XQ, Zhang YH, Chen KF, Ai N, Zhu RB, Su WH |
| 1225 - 1229 |
Cobalt plating of high temperature stainless steel interconnects
Deng XH, Wei P, Bateni MR, Petric A |
| 1230 - 1241 |
On the start-up transient simulation of a turbo fuel cell system
Lin PH, Hong CW |
| 1242 - 1250 |
Effect of sub-freezing temperatures on a PEM fuel cell performance, startup and fuel cell components
Yan QG, Toghiani H, Lee YW, Liang KW, Causey H |
| 1251 - 1268 |
The effects of water and microstructure on the performance of polymer electrolyte fuel cells
Shah AA, Kim GS, Gervais W, Young A, Promislow K, Li J, Ye S |
| 1269 - 1274 |
Effect of freeze-thaw cycles on the properties and performance of membrane-electrode assemblies
Guo QH, Qi ZG |
| 1275 - 1286 |
Start-up strategies of an experimental fuel processor
Chen YH, Yu CC, Liu YC, Lee CH |
| 1287 - 1293 |
Effect of Co content on performance of LiAl1/3-xCoxNi1/3Mn1/3O2 compounds for lithium-ion batteries
Hu SK, Chou TC, Hwang BJ, Ceder G |
| 1294 - 1301 |
Synthesis and electrochemical studies on Al2O3 coated LiNi0.5Co0.44Fe0.06VO4 for lithium ion batteries
Fey GTK, Muralidharan P, Cho YD |
| 1302 - 1307 |
Overcharge investigation of lithium-ion polymer batteries
Zeng YQ, Wu K, Wang DY, Wang ZX, Chen LQ |
| 1308 - 1313 |
Fast cycling of Li/LiCoO2 cell with low-viscosity ionic liquids based on bis(fluorosulfonyl)imide [FSI](-)
Matsumoto H, Sakaebe H, Tatsumi K, Kikuta M, Ishiko E, Kono M |
| 1314 - 1319 |
Behavior of the monophosphate tungsten bronzes (PO2)(4)(WO3)(2m) (m = 4 and 6) in electrochemical lithium insertion
Rodriguez FEL, la Cruz AMD, Cuellar EL |
| 1320 - 1328 |
A novel composite microporous polymer electrolyte prepared with molecule sieves for Li-ion batteries
Jiang YX, Chen ZF, Zhuang QC, Xu JM, Dong QF, Huang L, Sun SG |
| 1329 - 1335 |
Ionic conduction through heterogeneous solids: Delineation of the blocking and space charge effects
Kumar B, Nellutla S, Thokchom JS, Chen C |
| 1336 - 1341 |
Electrodeposited Ni-Sn intermetallic electrodes for advanced lithium ion batteries
Hassoun J, Panero S, Scrosati B |
| 1342 - 1348 |
Preparation and electrochemical characteristics of LiNi1/3Mn1/3Co1/3O2 coated with metal oxides coating
Li DC, Kato Y, Kobayakawa K, Noguchi H, Sato Y |
| 1349 - 1354 |
Study of the charging process of a LiCoO2-based Li-ion battery
Zhang SS, Xu K, Jow TR |
| 1355 - 1360 |
Compounds in solid electrolyte interface (SEI) on carbonaceous material charged in siloxane-based electrolyte
Nakahara H, Nutt S |
| 1361 - 1368 |
Synthesis and electrochemical properties of olivine-type LiFePO4/C composite cathode material prepared from a poly(vinyl alcohol)-containing precursor
Yun NJ, Ha HW, Jeong KH, Park HY, Kim K |
| 1369 - 1374 |
Synthesis and electrochemical studies of the 4 V cathode, Li(Ni2/3Mn1/3)O-2
Reddy MV, Rao GVS, Chowdari BVR |
| 1375 - 1380 |
Organic compounds with heteroatoms as overcharge protection additives for lithium cells
Watanabe Y, Yamazaki Y, Yasuda K, Morimoto H, Tobishima SI |
| 1381 - 1386 |
Structural, magnetic and electrochemical properties of lithium iron orthosilicate
Zaghib K, Salah AA, Ravet N, Mauger A, Gendron F, Julien CM |
| 1387 - 1390 |
Charge-discharge and high temperature reaction of LiCoO2 in ionic liquid electrolytes based on cyano-substituted quaternary ammonium cation
Egashira M, Tanaka-Nakagawa M, Watanabe I, Okada S, Yamaki JI |
| 1391 - 1394 |
Electrochemical properties of the LaNi3.55Mn0.4Al0.3Co0.4Fe0.35 hydrogen storage alloy
Tliha M, Mathlouthi H, Khaldi C, Lamloumi J, Percheron-Guegan A |
| 1395 - 1402 |
Effects of overdischarge on performance and thermal stability of a Li-ion cell
Maleki H, Howard JN |
| 1403 - 1409 |
Charge and discharge characteristics of a commercial LiCoO2-based 18650 Li-ion battery
Zhang SS, Xu K, Jow TR |
| 1410 - 1413 |
Influence of phosphoric acid on the grid alloys of positive plates in the lead acid battery system: A comparative study
Saminathan K, Jayaprakash N, Rajeswari B, Vasudevan T |
| 1414 - 1419 |
Sodium sulfate as an efficient additive of negative paste for lead-acid batteries
Karimi MA, Karami H, Mahdipour M |
| 1420 - 1424 |
Nanostructured silver catalyzed nickel foam cathode for an aluminum-hydrogen peroxide fuel cell
Yang WQ, Yang SH, Wei S, Sun GQ, Xin Q |
| 1425 - 1430 |
A new electrode material for nickel-metal hydride batteries: MgNiPt alloy prepared by ball-milling
Souza EC, de Castro JFR, Ticianelli EA |
| 1431 - 1435 |
Electrochemical characteristics of iron carbide as an active material in alkaline batteries
Ujimine K, Tsutsumi A |
| 1436 - 1441 |
Novel alloys to improve the electrochemical behavior of zinc anodes for zinc/air battery
Lee CW, Sathiyanarayanan K, Eom SW, Yun MS |
| 1442 - 1446 |
Investigation of the charge/discharge characteristics of aqueous zinc-ferric chloride batteries
Zhang SM |
| 1447 - 1450 |
Novel electrolyte for zinc-polyaniline batteries
Jugovic BZ, Trisovic TL, Stevanovic J, Maksimovic M, Grgur BN |
| 1451 - 1455 |
A quasi-solid-state dye-sensitized solar cell based on the stable polymer-grafted nanoparticle composite electrolyte
Zhang X, Yang H, Xiong HM, Li FY, Xia YY |
| 1456 - 1464 |
Performance of thermal cells and batteries made with plasma-sprayed cathodes and anodes
Guidotti RA, Reinhardt FW, Dai J, Reisner DE |
| 1465 - 1470 |
Spent NiMH batteries: Characterization and metal recovery through mechanical processing
Bertuol DA, Bernardes AM, Tenorio JAS |
| 1471 - 1479 |
Conditions to prepare PPy/Al2O3/Al used as a solid-state capacitor from aqueous malic solutions
Martins JI, Costa SC, Bazzaoui M, Goncalves G, Fortunato E, Martins R |
| 1480 - 1486 |
Electrochemical supercapacitor behavior of nanoparticulate rutile-type Ru1-xVxO2
Yokoshima K, Shibutani T, Hirota M, Sugimoto W, Murakami Y, Takasu Y |
| 1487 - 1494 |
Supercapacitors using carbon nanotubes films by electrophoretic deposition
Du CS, Pan N |
| 1495 - 1500 |
Effects of microporosity on the specific capacitance of polyacrylonitrile-based activated carbon fiber
Lee JG, Kim JY, Kim SH |
| 1501 - 1505 |
A new type of MnO2 center dot xH(2)O/CRF composite electrode for supercapacitors
Li J, Wang XY, Huang QH, Gamboa S, Sebastian PJ |
| 1506 - 1510 |
Effect of temperature annealing on capacitive and structural properties of hydrous ruthenium oxides
Fang WC, Huang JH, Chen LC, Su YLO, Chen KH |
| 1511 - 1517 |
Chalcocite as a potential material for supercapacitors
Stevic Z, Rajcic-Vujasinovic M |
