| 1 - 4 |
Improving the chemical compatibility of sealing glass for solid oxide fuel cells: Blocking the reactive species by controlled crystallization
Zhang T, Zou Q, Zeng FR, Wang SR, Tang D, Yang HW |
| 5 - 10 |
Study of a graphene-like anode material in N-methyl-N-propylpyrrolidinium bis(trifluoromethanesulfonyl)imide ionic liquid for Li-ion batteries
Galinski M, Acznik I |
| 11 - 14 |
Reversible aging behavior of La0.8Sr0.2MnO3 electrodes at open circuit
Abernathy H, Finklea HO, Mebane DS, Chen XK, Gerdes K, Salazar-Vilialpando MD |
| 15 - 21 |
Proton exchange membrane micro fuel cells on 3D porous silicon gas diffusion layers
Kouassi S, Gautier G, Thery J, Desplobain S, Borella M, Ventura L, Laurent JY |
| 22 - 27 |
Microwave hydrothermal synthesis of high performance tin-graphene nanocomposites for lithium ion batteries
Chen SQ, Wang Y, Ahn H, Wang GX |
| 28 - 32 |
Enhanced electrocatalytic performance of Pt monolayer on nanoporous PdCu alloy for oxygen reduction
Hou LX, Qiu HJ |
| 33 - 35 |
Two-step carbon coating of lithium vanadium phosphate as high-rate cathode for lithium-ion batteries
Kuang Q, Zhao YM |
| 36 - 41 |
Organic and inorganic surface passivations of TiO2 nanotube arrays for dye-sensitized photoelectrodes
Park H, Yang C, Choi WY |
| 42 - 47 |
Evaporation-induced self-assembled silica colloidal particle-assisted nanoporous structural evolution of poly(ethylene terephthalate) nonwoven composite separators for high-safety/high-rate lithium-ion batteries
Lee JR, Won JH, Kim JH, Kim KJ, Lee SY |
| 48 - 66 |
Where do poly(vinyl alcohol) based membranes stand in relation to Nafion (R) for direct methanol fuel cell applications?
Maiti J, Kakati N, Lee SH, Jee SH, Viswanathan B, Yoon YS |
| 67 - 75 |
Molecular catalysis of the oxygen reduction reaction by iron porphyrin catalysts tethered into Nafion layers: An electrochemical study in solution and a membrane-electrode-assembly study in fuel cells
He QG, Mugadza T, Kang XW, Zhu XB, Chen SW, Kerr J, Nyokong T |
| 76 - 83 |
High-capacity cathodes for lithium-ion batteries from nanostructured LiFePO4 synthesized by highly-flexible and scalable flame spray pyrolysis
Hamid NA, Wennig S, Hardt S, Heinzel A, Schulz C, Wiggers H |
| 84 - 88 |
A combined photovoltaic and Li ion battery device for continuous energy harvesting and storage
Chakrapani V, Rusli F, Filler MA, Kohl PA |
| 89 - 98 |
Chromium poisoning and degradation at Gd0.2Ce0.8O2-impregnated LaNi0.6Fe0.4O3-delta cathode for solid oxide fuel cell
Huang B, Zhu XJ, Ren RX, Hu YX, Ding XY, Liu YB, Liu ZY |
| 99 - 103 |
A new hybrid redox flow battery with multiple redox couples
Wang W, Li LY, Nie ZM, Chen BW, Luo QT, Shao YY, Wei XL, Chen F, Xia GG, Yang ZG |
| 104 - 116 |
Simulation of demand management and grid balancing with electric vehicles
Druitt J, Fruh WG |
| 117 - 123 |
Nanocomposite SnO2-Se thin film as anode material for lithium-ion batteries
Ding XL, Sun Q, Lu F, Fu ZW |
| 124 - 130 |
Highly durable anode supported solid oxide fuel cell with an infiltrated cathode
Samson AJ, Hjalmarsson P, Sogaard M, Hjelm J, Bonanos N |
| 131 - 138 |
Shape evolution of patterned amorphous and polycrystalline silicon microarray thin film electrodes caused by lithium insertion and extraction
He Y, Yu XQ, Li G, Wang R, Li H, Wang YL, Gao HJ, Huang XJ |
| 139 - 144 |
A comparison of sputtered and mechanically milled Cu6Sn5 + C materials for Li-ion battery negative electrodes
Thorne JS, Dahn JR, Obrovac MN, Dunlap RA |
| 145 - 151 |
A(3)V(2)(PO4)(3) (A = Na or Li) probed by in situ X-ray absorption spectroscopy
Pivko M, Arcon I, Bele M, Dominko R, Gaberscek M |
| 152 - 161 |
A quasi-three-dimensional non-isothermal dynamic model of a high-temperature proton exchange membrane fuel cell
Park J, Min K |
| 162 - 168 |
Carbon-coated nanoclustered LiMn0.71Fe0.29PO4 cathode for lithium-ion batteries
Jo M, Yoo H, Jung YS, Cho J |
| 169 - 178 |
Enhanced nanoscale conduction capability of a MoO2/Graphene composite for high performance anodes in lithium ion batteries
Bhaskar A, Deepa M, Rao TN, Varadaraju UV |
| 179 - 186 |
Surface studies of high voltage lithium rich composition: Li1.2Mn0.525Ni0.175Co0.1O2
Martha SK, Nanda J, Veith GM, Dudney NJ |
| 187 - 191 |
MnO2-graphene hybrid as an alternative cathodic catalyst to platinum in microbial fuel cells
Wen Q, Wang SY, Yan J, Cong LJ, Pan ZC, Ren YM, Fan ZJ |
| 192 - 200 |
An improved high-power battery with increased thermal operating range: C-LiFePO4//C-Li4Ti5O12
Zaghib K, Dontigny M, Guerfi A, Trottier J, Hamel-Paquet J, Gariepy V, Galoutov K, Hovington P, Mauger A, Groult H, Julien CM |
| 201 - 207 |
MnO/reduced graphene oxide sheet hybrid as an anode for Li-ion batteries with enhanced lithium storage performance
Mai YJ, Zhang D, Qiao YQ, Gu CD, Wang XL, Tu JP |
| 208 - 215 |
Sm0.5Sr0.5CoO3-delta-infiltrated cathodes for solid oxide fuel cells with improved oxygen reduction activity and stability
Wang FC, Chen DJ, Shao ZP |
| 216 - 221 |
A lithium-ion battery separator prepared using a phase inversion process
Huang XS |
| 222 - 226 |
Rechargeable hybrid aqueous batteries
Yan J, Wang J, Liu H, Bakenov Z, Gosselink D, Chen P |
| 227 - 236 |
Development and characterization of glass-ceramic sealants in the (CaO-Al2O3-SiO2-B2O3) system for Solid Oxide Electrolyzer Cells
Khedim H, Nonnet H, Mear FO |
| 237 - 248 |
Integrated thermal and energy management of plug-in hybrid electric vehicles
Shams-Zahraei M, Kouzani AZ, Kutter S, Baker B |
| 249 - 255 |
Direct synthesis of oxygen-deficient Li2MnO3-x for high capacity lithium battery electrodes
Kubota K, Kaneko T, Hirayama M, Yonemura M, Imanari Y, Nakane K, Kanno R |
| 256 - 260 |
A core-shell structured, metal-ceramic composite-supported Ru catalyst for methane steam reforming
Lee HC, Potapova Y, Lee D |
| 261 - 268 |
Preparation and properties of novel sulfonated poly(p-phenylene-co-aryl ether ketone)s for polymer electrolyte fuel cell applications
Zhang X, Hu ZX, Pu YL, Chen SS, Ling JN, Bi HP, Chen SW, Wang LJ, Okamoto K |
| 269 - 272 |
Magnetic-field effect on dye-sensitized ZnO nanorods-based solar cells
Cai FS, Wang J, Yuan ZH, Duan YQ |
| 273 - 280 |
Safe positive temperature coefficient composite cathode for lithium ion battery
Zhong H, Kong C, Zhan H, Zhan CM, Zhou YH |
| 281 - 289 |
Preparation, structural characterization and catalytic properties of Co/CeO2 catalysts for the steam reforming of ethanol and hydrogen production
Lovon ASP, Lovon-Quintana JJ, Almerindo GI, Valenca GP, Bernardi MIB, Araujo VD, Rodrigues TS, Robles-Dutenhefner PA, Fajardo HV |
| 290 - 296 |
Effect of aqueous electrolytes on the electrochemical behaviors of supercapacitors based on hierarchically porous carbons
Zhang XY, Wang XY, Jiang LL, Wu H, Wu C, Su JC |
| 297 - 303 |
Glucose microfluidic fuel cell based on silver bimetallic selective catalysts for on-chip applications
Cuevas-Muniz FM, Guerra-Balcazar M, Esquivel JP, Sabate N, Arriaga LG, Ledesma-Garcia J |
| 304 - 307 |
Ac impedance analysis of lithium ion battery under temperature control
Momma T, Matsunaga M, Mukoyama D, Osaka T |
| 308 - 313 |
Efficient ceramic anodes infiltrated with binary and ternary electrocatalysts for SOFCs operating at low temperatures
Hussain AM, Hogh JVT, Zhang W, Bonanos N |
| 314 - 322 |
Performance evaluation of an integrated small-scale SOFC-biomass gasification power generation system
Wongchanapai S, Iwai H, Saito M, Yoshida H |
| 323 - 329 |
Low-viscosity ether-functionalized pyrazolium ionic liquids as new electrolytes for lithium battery
Chai M, Jin YD, Fang SH, Yang L, Hirano S, Tachibana K |
| 330 - 336 |
Ionic liquid diffusion properties in tetrapod-like ZnO photoanode for dye-sensitized solar cells
Lee KM, Chiu WH, Hsu CY, Cheng HM, Lee CH, Wu CG |
| 337 - 344 |
The influence of channel wettability and geometry on water plug formation and drop location in a proton exchange membrane fuel cell flow field
Herescu A, Allen JS |
| 345 - 352 |
Experimental study of an air-cooled thermal management system for high capacity lithium-titanate batteries
Giuliano MR, Prasad AK, Advani SG |
| 353 - 362 |
Influence of Mn content on the morphology and improved electrochemical properties of Mn3O4 vertical bar MnO@carbon nanofiber as anode material for lithium batteries
Yang G, Li YH, Ji HM, Wang HY, Gao P, Wang L, Liu HD, Pinto J, Jiang XF |
| 363 - 367 |
Effect of L-arginine on the catalytic activity and stability of nickel nanoparticles for hydrolytic dehydrogenation of ammonia borane
Umegaki T, Xu Q, Kojima Y |
| 368 - 375 |
Structural, electrochemical and thermal stability investigations on LiNi0.5-xAl2xMn1.5-xO4 (0 <= 2x <= 1.0) as 5 V cathode materials
Zhong GB, Wang YY, Zhao XJ, Wang QS, Yu Y, Chen CH |
| 376 - 386 |
Selection of battery technology to support grid-integrated renewable electricity
Leadbetter J, Swan LG |
| 387 - 394 |
Sulfonated block-graft copolyimide for high proton conductive and low gas permeable polymer electrolyte membrane
Yamazaki K, Wang G, Tanaka M, Kawakami H |
| 395 - 399 |
Hydrothermal-synthesized Co(OH)(2) nanocone arrays for supercapacitor application
Cao F, Pan GX, Tang PS, Chen HF |
| 400 - 408 |
Combinatorial search for oxygen reduction reaction electrocatalysts: A review
Jeon MK, Lee CH, Park GI, Kang KH |
| 409 - 416 |
Stability of solid oxide fuel cell anodes based on YST-SDC composite with Ni catalyst
Puengjinda P, Muroyama H, Matsui T, Eguchi K |
| 417 - 424 |
Performance and short-term stability of single-chamber solid oxide fuel cells based on La0.9Sr0.1Ga0.8Mg0.2O3-delta electrolyte
Morales M, Roa JJ, Tartaj J, Segarra M |
| 425 - 433 |
Microstructure and supercapacitive properties of buserite-type manganese oxide with a large basal spacing
Sun ZJ, Shu D, Chen HY, He C, Tang SQ, Zhang J |
| 434 - 448 |
Progressive activation of degradation processes in solid oxide fuel cell stacks: Part II: Spatial distribution of the degradation
Nakajo A, Mueller F, Brouwer J, Van Herle J, Favrat D |
| 449 - 463 |
Progressive activation of degradation processes in solid oxide fuel cells stacks: Part I: Lifetime extension by optimisation of the operating conditions
Nakajo A, Mueller F, Brouwer J, Van Herle J, Favrat D |
| 464 - 470 |
Effect of the Pt/Ru intermetallic boundary on the carbon monoxide electrooxidation: Excess electrocatalytic activity
Rau MS, de Chialvo MRG, Chialvo AC |
| 471 - 474 |
Performance of vapor-fed direct dimethyl ether fuel cell utilizing high temperature polybenzimidazole polymer electrolyte membrane
Neutzler J, Qian GQ, Huang K, Benicewicz B |
| 475 - 481 |
New easy way preparation of core/shell structured SnO2@carbon spheres and application for lithium-ion batteries
Chen XC, Kierzek K, Wilgosz K, Machnikowski J, Gong J, Feng JD, Tang T, Kalenczuk RJ, Chen HM, Chu PK, Mijowska E |
| 482 - 488 |
Effect of doping LiMn2O4 spinel with a tetravalent species such as Si(IV) versus with a trivalent species such as Ga(III). Electrochemical, magnetic and ESR study
Iturrondobeitia A, Goni A, Palomares V, de Muro IG, Lezama L, Rojo T |
| 489 - 501 |
Thermal modelling of battery configuration and self-discharge reactions in vanadium redox flow battery
Tang A, Bao J, Skyllas-Kazacos M |
| 502 - 507 |
Electrocatalysis of oxygen reduction at poly (4-amino-3-hydroxynaphthalene sulfonic acid) and platinum loaded polymer modified glassy carbon electrodes
Zewde BW, Admassie S |
| 508 - 514 |
In-situ synthetize multi-walled carbon nanotubes@MnO2 nanoflake core-shell structured materials for supercapacitors
Zheng HJ, Wang JX, Jia Y, Ma CA |
| 515 - 525 |
Effect of glycol-based coolants on the suppression and recovery of platinum fuel cell electrocatalysts
Garsany Y, Dutta S, Swider-Lyons KE |
| 526 - 529 |
Modification of Nafion membrane by Pd-impregnation via electric field
Zhang XL, Zhang YF, Nie L, Liu XW, Chang LM |
| 530 - 541 |
A new stochastic algorithm for proton exchange membrane fuel cell stack design optimization
Chakraborty U |
