| 685 - 702 |
A review of integration strategies for solid oxide fuel cells
Zhang XW, Chan SH, Li GJ, Ho HK, Li J, Feng ZP |
| 703 - 709 |
Self-assembly of highly charged polyelectrolyte complexes with superior proton conductivity and methanol barrier properties for fuel cells
Yilmazturk S, Deligoz H, Yilmazoglu M, Damyan H, Oksuzomer F, Koc SN, Durmus A, Gurkaynak MA |
| 710 - 719 |
Structure of carbon-supported Pt-Ru nanoparticles and their electrocatalytic behavior for hydrogen oxidation reaction
Velazquez A, Centellas F, Garrido JA, Arias C, Rodriguez RM, Brillas E, Cabot PL |
| 720 - 728 |
Dopants to enhance SOFC cathodes based on Sr-doped LaFeO3 and LaMnO3
Bidrawn F, Kim G, Aramrueang N, Vohs JM, Gorte RJ |
| 729 - 735 |
Electrocatalytic activity of Pt nanoparticles electrodeposited on amorphous carbon-coated silicon nanocones
Tiwari JN, Pan FM, Chen TM, Tiwari RN, Lin KL |
| 736 - 743 |
Nafion (R)/polystyrene-b-poly(ethylene-ran-butylene)-b-polystyrene composite membranes with electric field-aligned domains for improved direct methanol fuel cell performance
Wei X, Yates MZ |
| 744 - 749 |
A new anode material for solid oxide electrolyser: The neodymium nickelate Nd2NiO4+delta
Chauveau F, Mougin J, Bassat JM, Mauvy F, Grenier JC |
| 750 - 755 |
Use of bioelectrode containing DNA-wrapped single-walled carbon nanotubes for enzyme-based biofuel cell
Lee JY, Shin HY, Kang SW, Park C, Kim SW |
| 756 - 761 |
Performance of an ultra-low platinum loading membrane electrode assembly prepared by a novel catalyst-sprayed membrane technique
Su HN, Liao SJ, Shu T, Gao HL |
| 762 - 768 |
Novel hybrid polymer electrolyte membranes prepared by a silane-cross-linking technique for direct methanol fuel cells
Lin HD, Zhao CJ, Ma WJ, Shao K, Li HT, Zhang Y, Na H |
| 769 - 774 |
Effect of Ba doping on performance of LST as anode in solid oxide fuel cells
Vincent A, Luo JL, Chuang KT, Sanger AR |
| 775 - 778 |
A novel layered perovskite cathode for proton conducting solid oxide fuel cells
Ding HP, Xue XJ, Liu XQ, Meng GY |
| 779 - 786 |
The bipolar plate of AISI 1045 steel with chromized coatings prepared by low-temperature pack cementation for proton exchange membrane fuel cell
Bai CY, Wen TM, Hou KH, Ger MD |
| 787 - 793 |
The effects of wetproofing on the capillary properties of proton exchange membrane fuel cell gas diffusion layers
Fairweather JD, Cheung P, Schwartz DT |
| 794 - 800 |
Preparation and properties of thin epoxy/compressed expanded graphite composite bipolar plates for proton exchange membrane fuel cells
Du C, Ming PW, Hou M, Fu J, Shen Q, Liang D, Fu YF, Luo XK, Shao ZG, Yi BL |
| 801 - 812 |
Numerical investigation of water droplet dynamics in a low-temperature fuel cell microchannel: Effect of channel geometry
Zhu X, Liao Q, Sui PC, Djilali N |
| 813 - 820 |
Exploration of alloy 441 chemistry for solid oxide fuel cell interconnect application
Jablonski PD, Cowen CJ, Sears JS |
| 821 - 824 |
The effect of porosity gradient in a Nickel/Yttria Stabilized Zirconia anode for an anode-supported planar solid oxide fuel cell
An CM, Song JH, Kang I, Sammes N |
| 825 - 828 |
Invasion percolation with inlet multiple injections and the water management problem in proton exchange membrane fuel cells
Ceballos L, Prat M |
| 829 - 833 |
Analysis of ammonia decomposition reactor to generate hydrogen for fuel cell applications
Alagharu V, Palanki S, West KN |
| 834 - 844 |
Fe content effects on electrochemical properties of Fe-substituted Li2MnO3 positive electrode material
Tabuchi M, Nabeshima Y, Takeuchi T, Tatsumi K, Imaizumi J, Nitta Y |
| 845 - 852 |
Improved electrolytes for Li-ion batteries: Mixtures of ionic liquid and organic electrolyte with enhanced safety and electrochemical performance
Guerfi A, Dontigny M, Charest P, Petitclerc M, Lagace M, Vijh A, Zaghib K |
| 853 - 856 |
LBDOB, a new lithium salt with benzenediolato and oxalato complexes of boron for lithium battery electrolytes
Xue ZM, Zhao JF, Ding J, Chen CH |
| 857 - 861 |
Converting cobalt oxide subunits in cobalt metal-organic framework into agglomerated Co3O4 nanoparticles as an electrode material for lithium ion battery
Liu B, Zhang XB, Shioyama H, Mukai T, Sakai T, Xu Q |
| 862 - 866 |
Lithium difluoro(oxalato)borate/ethylene carbonate plus propylene carbonate plus ethyl(methyl) carbonate electrolyte for LiMn2O4 cathode
Fu MH, Huang KL, Liu SQ, Liu JS, Li YK |
| 867 - 871 |
Nano-sponge ionic liquid-polymer composite electrolytes for solid-state lithium power sources
Liao KS, Sutto TE, Andreoli E, Ajayan P, McGrady KA, Curran SA |
| 872 - 876 |
Thermal diffusivity study of aged Li-ion batteries using flash method
Nagpure SC, Dinwiddie R, Babu SS, Rizzoni G, Bhushan B, Frech T |
| 877 - 882 |
Differential voltage analyses of high-power lithium-ion cells. 4. Cells containing NMC
Bloom I, Walker LK, Basco JK, Abraham DP, Christophersen JP, Ho CD |
| 883 - 889 |
Examination of different lattice structures in porous electrodes using a three-dimensional conductivity model
Zhang S, Bean T, Edwards DB |
| 890 - 897 |
Investigations on transfer of water and vanadium ions across Nafion membrane in an operating vanadium redox flow battery
Sun CX, Chen J, Zhang HM, Han X, Luo QT |
| 898 - 911 |
Intelligent unit commitment with vehicle-to-grid-A cost-emission optimization
Saber AY, Venayagamoorthy GK |
| 912 - 918 |
Microstructure and electrochemical double-layer capacitance of carbon electrodes prepared by zinc chloride activation of sugar cane bagasse
Rufford TE, Hulicova-Jurcakova D, Khosla K, Zhu ZH, Lu GQ |
| 919 - 922 |
Pseudocapacitance of MnO2 originates from reversible insertion/desertion of thiocyanate anions studied using in situ X-ray absorption spectroscopy in ionic liquid electrolyte
Lee MT, Tsai WT, Deng MJ, Cheng HF, Sun IW, Chang JK |
| 923 - 928 |
Aging and failure mode of electrochemical double layer capacitors during accelerated constant load tests
Kotz R, Ruch PW, Cericola D |
| 929 - 935 |
Prediction of the self-discharge profile of an electrochemical capacitor electrode in the presence of both activation-controlled discharge and charge redistribution
Black J, Andreas HA |
| 936 - 936 |
Review of the micro-tubular solid oxide fuel cell: Part I. Stack design issues and research activities (vol 193, pg 387, 2009)
Lawlor V, Griesser S, Buchinger G, Olabi AG, Cordiner S, Meissner D |
| 937 - 937 |
Further studies of the anodic dissolution in sodium chloride electrolyte of aluminium alloys containing tin and gallium (vol 193, pg 895, 2009)
Nestoridi M, Pletcher D, Wharton JA, Wood RJK |
