| 1 - 1 |
2011 International Lead Award
Prengaman RD |
| 2 - 3 |
2011 International Lead Award Acceptance Speech
Flicker RP |
| 4 - 16 |
Recent advances in high temperature electrolysis using solid oxide fuel cells: A review
Laguna-Bercero MA |
| 17 - 25 |
Facile synthesis of hollow spherical sandwich PtPd/C catalyst by electrostatic self-assembly in polyol solution for methanol electrooxidation
Chu YY, Wang ZB, Jiang ZZ, Gu DM, Yin GP |
| 26 - 33 |
Nanostructured design of electrocatalyst support materials for high-performance PEM fuel cell application
Balgis R, Anilkumar GM, Sago S, Ogi T, Okuyama K |
| 34 - 41 |
Electrochemical characteristics of nano-structured PrBaCo2O5+x cathodes fabricated with ion impregnation process
Wang Y, Zhang H, Chen FL, Xia CR |
| 42 - 47 |
Poly(ethylene-co-vinyl alcohol)/sulfonated mesoporous organosilicate composites as proton-conductive membranes
Chiba Y, Tominaga Y |
| 48 - 56 |
Preparation of Pt/poly(pyrogallol)/graphene electrode and its electrocatalytic activity for methanol oxidation
Shi QF, Mu SL |
| 57 - 64 |
Electrocatalysis of oxygen reduction at electrodeposited molybdenum phosphate-based films
Luque GC, Fernandez JL |
| 65 - 71 |
High performance transition metal oxide composite cathode for low temperature solid oxide fuel cells
Fan LD, Zhu B, Chen MM, Wang CY, Raza R, Qin HY, Wang XT, Wang XD, Ma Y |
| 72 - 77 |
Co3O4 as anode material for thin film micro-batteries prepared by remote plasma atomic layer deposition
Donders ME, Knoops HCM, Kessels WMM, Notten PHL |
| 78 - 83 |
Thermal stability of silicon negative electrode for Li-ion batteries
Zhao LW, Han SH, Okada S, Na BK, Takeno K, Yamaki J |
| 84 - 96 |
Thermal-electrochemical model for passive thermal management of a spiral-wound lithium-ion battery
Somasundaram K, Birgersson E, Mujumdar AS |
| 97 - 102 |
Synthesis of open tunnel-structured TiO2(B) by nanosheets processes and its electrode properties for Li-ion secondary batteries
Jang H, Suzuki S, Miyayama M |
| 103 - 108 |
Mechanism on exothermic heat of FeF3 cathode in Li-ion batteries
Zhou MJ, Zhao LW, Kitajou A, Okada S, Yamaki J |
| 109 - 114 |
Raman study of structural stability of LiCoPO4 cathodes in LiPF6 containing electrolytes
Sharabi R, Markevich E, Borgel V, Salitra G, Gershinsky G, Aurbach D, Semrau G, Schmidt MA, Schall N, Stinner C |
| 115 - 120 |
Synthesis of Li[Li1.19Ni0.16Co0.08Mn0.57]O-2 cathode materials with a high volumetric capacity for Li-ion batteries
Kim HJ, Jung HG, Scrosati B, Sun YK |
| 121 - 125 |
Porous Li3V2(PO4)(3)/C cathode with extremely high-rate capacity prepared by a sot-gel-combustion method for fast charging and discharging
Zhang L, Xiang HF, Li Z, Wang HH |
| 126 - 129 |
"In-operando" neutron scattering studies on Li-ion batteries
Senyshyn A, Muhlbauer MJ, Nikolowski K, Pirling T, Ehrenberg H |
| 130 - 134 |
Highly conductive three-dimensional graphene for enhancing the rate performance of LiFePO4 cathode
Tang YF, Huang FQ, Bi H, Liu ZQ, Wan DY |
| 135 - 139 |
Influence of the diameter distribution on the rate capability of silicon nanowires for lithium-ion batteries
Gohier A, Laik B, Pereira-Ramos JP, Cojocaru CS, Tran-Van P |
| 140 - 144 |
Carbon nanocolumn arrays prepared by pulsed laser deposition for lithium ion batteries
Wang KX, Li Y, Wu XY, Chen JS |
| 145 - 152 |
The effect of rare earth metals on the microstructure and electrochemical corrosion behavior of lead calcium grid alloys in sulfuric acid solution
Zhang WQ, Li AJ, Chen HY, Lan BY, Pan K, Zhang TR, Fang MX, Liu SY, Zhang W |
| 153 - 158 |
An optimal strategy of electrolyte flow rate for vanadium redox flow battery
Ma XK, Zhang HM, Sun CX, Zou Y, Zhang T |
| 159 - 164 |
Manganese oxide with a card-house-like structure reassembled from nanosheets for rechargeable Li-air battery
Ida S, Thapa AK, Hidaka Y, Okamoto Y, Matsuka M, Hagiwara H, Ishihara T |
| 165 - 176 |
Thermal modelling and simulation of the all-vanadium redox flow battery
Tang A, Ting SM, Bao J, Skyllas-Kazacos M |
| 177 - 183 |
Synthesis and electrochemical performance of mixed phase alpha/beta nickel hydroxide
Li YW, Yao JH, Zhu YX, Zou ZG, Wang HB |
| 184 - 189 |
A battery with variable electrostatic capacity controlled by redox reaction
Sakata J |
| 190 - 194 |
A multilayered membrane for vanadium redox flow battery
Jia CK, Liu JG, Yan CW |
| 195 - 200 |
Binary ionic liquid electrolytes containing organo-magnesium complex for rechargeable magnesium batteries
Kakibe T, Hishii JY, Yoshimoto N, Egashira M, Morita M |
| 201 - 205 |
Tetrabutylammonium hexafluorophosphate and 1-ethyl-3-methyl imidazolium hexafluorophosphate ionic liquids as supporting electrolytes for non-aqueous vanadium redox flow batteries
Zhang DP, Liu QH, Shi XS, Li YD |
| 206 - 210 |
A study on AgCuO2 as ultra fast charging cathode material for alkaline secondary battery
Pan JQ, Qiu YB, Sun YZ, Wang ZH |
| 211 - 221 |
Modeling of reaction kinetics and transport in the positive porous electrode in a sodium-iron chloride battery
Eroglu D, West AC |
| 222 - 226 |
An investigation of mass and brand diversity in a spent battery recycling collection with an emphasis on spent alkaline batteries: Implications for waste management and future policy concerns
Krekeler MPS, Barrett HA, Davis R, Burnette C, Doran T, Ferraro A, Meyer A |
| 227 - 232 |
Exfoliated graphite nanoplatelets-V2O5 nanotube composite electrodes for supercapacitors
Bonso JS, Rahy A, Perera SD, Nour N, Seitz O, Chabal YJ, Balkus KJ, Ferraris JP, Yang DJ |
| 233 - 242 |
Supercapacitive behavior and high cycle stability of todorokite-type manganese oxide with large tunnels
Sun ZJ, Chen HY, Shu D, He C, Tang SQ, Zhang J |
| 243 - 249 |
Reduced graphene oxide-nickel oxide composite as high performance electrode materials for supercapacitors
Zhu XJ, Dai HL, Hu J, Ding L, Jiang L |
| 250 - 256 |
Facile growth of mesoporous Co3O4 nanowire arrays on Ni foam for high performance electrochemical capacitors
Zhang F, Yuan CZ, Lu XJ, Zhang LJ, Che Q, Zhang XG |
| 257 - 261 |
Performance of a graphite (KS-6)/MoO3 energy storing system
Gunawardhana N, Park GJ, Thapa AK, Dimov N, Sasidharan M, Nakamura H, Yoshio M |
| 262 - 273 |
Ageing of electrochemical double layer capacitors
Bittner AM, Zhu M, Yang Y, Waibel HF, Konuma M, Starke U, Weber CJ |
| 274 - 281 |
High performance dye-sensitized solar cells based on platinum nanoparticle/multi-wall carbon nanotube counter electrodes: The role of annealing
Huang KC, Wang YC, Chen PY, Lai YH, Huang JH, Chen YH, Dong RX, Chu CW, Lin JJ, Ho KC |
| 282 - 287 |
Preparation of poly(acrylic acid)/gelatin/polyaniline gel-electrolyte and its application in quasi-solid-state dye-sensitized solar cells
Tang ZY, Wu JH, Liu Q, Zheng M, Tang QW, Lan Z, Lin JM |
| 288 - 296 |
Preparation of structurally modified, conductivity enhanced-p-CuSCN and its application in dye-sensitized solid-state solar cells
Premalal EVA, Dematage N, Kumara GRRA, Rajapakse RMG, Shimomura M, Murakami K, Konno A |
| 297 - 301 |
A novel nanocomposite TiO2 photoanode for highly efficient dye-sensitized solar cells
Tu WK, Lin CJ, Chatterjee A, Shiau GH, Chien SH |
| 302 - 307 |
Quasi-Solid-State Dye-Sensitized Solar Cells made with poly(3,4-ethylenedioxythiophene)-functionalized counter-electrodes
Balis N, Makris T, Dracopoulos V, Stergiopoulos T, Lianos P |
