| 1 - 8 |
NiCo2O4 spinel/ordered mesoporous carbons as noble-metal free electrocatalysts for oxygen reduction reaction and the influence of structure of catalyst support on the electrochemical activity of NiCo2O4
Bo XJ, Zhang YF, Li MA, Nsabimana A, Guo LP |
| 9 - 12 |
Investigation of the electrocatalytic oxygen reduction and evolution reactions in lithium-oxygen batteries
Zheng D, Zhang XR, Qu DY, Yang XQ, Lee HS, Qu DY |
| 13 - 19 |
Dependence of LiNO3 decomposition on cathode binders in Li-S batteries
de Godoi FC, Wang DW, Zeng QC, Wu KH, Gentle IR |
| 20 - 25 |
High-performance anode-supported solid oxide fuel cell with impregnated electrodes
Osinkin DA, Bogdanovich NM, Beresnev SM, Zhuravlev VD |
| 26 - 35 |
Sea water magnesium fuel cell power supply
Hahn R, Mainert J, Glaw F, Lang KD |
| 36 - 41 |
Monodisperse CoFe2O4 nanoparticles supported on Vulcan XC-72: High performance electrode materials for lithium-air and lithium-ion batteries
Sener T, Kayhan E, Sevim M, Metin O |
| 42 - 52 |
Well-dispersed platinum nanoparticles supported on hierarchical nitrogen-doped porous hollow carbon spheres with enhanced activity and stability for methanol electrooxidation
Zhang J, Ma L, Gan MY, Yang FF, Fu SN, Li X |
| 53 - 61 |
Fabrication and lithium storage performance of sugar apple-shaped SiOx@C nanocomposite spheres
Li MQ, Zeng Y, Ren YR, Zeng CM, Gu JW, Feng XF, He HY |
| 62 - 69 |
Effects of vibrations and shocks on lithium-ion cells
Brand MJ, Schuster SF, Bach T, Fleder E, Stelz M, Glaser S, Muller J, Sextl G, Jossen A |
| 70 - 75 |
Perspective use of direct human blood as an energy source in air-breathing hybrid microfluidic fuel cells
Dector A, Escalona-Villalpando RA, Dector D, Vallejo-Becerra V, Chavez-Ramirez AU, Arriaga LG, Ledesma-Garcia J |
| 76 - 81 |
Free-standing molybdenum disulfide/graphene composite paper as a binder-and carbon-free anode for lithium-ion batteries
Yang M, Ko S, Im JS, Choi BG |
| 82 - 91 |
Energy and climate effects of second-life use of electric vehicle batteries in California through 2050
Sathre R, Scown CD, Kavvada O, Hendrickson TP |
| 92 - 105 |
In situ methods for Li-ion battery research: A review of recent developments
Harks PPRML, Mulder FM, Notten PHL |
| 106 - 114 |
Structurally modified coal char as a fuel for solid oxide-based carbon fuel cells with improved performance
Jiao Y, Zhao JH, An WT, Zhang LQ, Sha YJ, Yang GM, Shao ZP, Zhu ZP, Li SD |
| 115 - 120 |
Investigation of charge transfer kinetics of Li-Intercalation in LiFePO4
Heubner C, Schneider M, Michaelis A |
| 121 - 127 |
Development of membrane electrode assembly for high temperature proton exchange membrane fuel cell by catalyst coating membrane method
Liang HG, Su HN, Pollet BG, Pasupathi S |
| 128 - 135 |
Template-free synthesis of hierarchical yolk-shell Co and N codoped porous carbon microspheres with enhanced performance for oxygen reduction reaction
Chao SJ, Cui Q, Wang K, Bai ZY, Yang L, Qiao JL |
| 136 - 144 |
Enhanced low temperature electrochemical performances of LiFePO4/C by surface modification with Ti3SiC2
Cai GL, Guo RS, Liu L, Yang YX, Zhang C, Wu C, Guo WN, Jiang H |
| 145 - 149 |
Free-standing three-dimensional continuous multilayer V2O5 hollow sphere arrays as high-performance cathode for lithium batteries
Chen MH, Xia XH, Yuan JF, Yin JH, Chen QG |
| 150 - 159 |
Computational modeling of alkaline air-breathing microfluidic fuel cells with an array of cylinder anodes
Ye DD, Zhang B, Zhu X, Sui PC, Djilali N, Liao Q |
| 160 - 167 |
A two step method to synthesize palladium-copper nanoparticles on reduced graphene oxide and their extremely high electrocatalytic activity for the electrooxidation of methanol and ethanol
Na HY, Zhang L, Qiu HX, Wu T, Chen MX, Yang N, Li LZ, Xing FB, Gao JP |
| 168 - 175 |
Optimization of reference electrode position in a three-electrode cell for impedance measurements in lithium-ion rechargeable battery by finite element method
Hoshi Y, Narita Y, Honda K, Ohtaki T, Shitanda I, Itagaki M |
| 176 - 186 |
High-rate intercalation capability of NaTi2(PO4)(3)/C composite in aqueous lithium and sodium nitrate solutions
Vujkovic M, Mitric M, Mentus S |
| 187 - 198 |
Levelized cost of energy and sensitivity analysis for the hydrogen-bromine flow battery
Singh N, McFarland EW |
| 199 - 205 |
Local evolution of anode microstructure morphology in a solid oxide fuel cell after long-term stack operation
Brus G, Iwai H, Sciazko A, Saito M, Yoshida H, Szmyd JS |
| 206 - 213 |
Direct carbon coating at high temperature on LiNi0.5Mn1.5O4 cathode: Unexpected influence on crystal structure and electrochemical performances
Wang HL, Shi ZQ, Li JW, Yang S, Ren RB, Cui JY, Xiao JL, Zhang B |
| 214 - 220 |
Reduced graphene oxide encapsulated selenium nanoparticles for high-power lithium-selenium battery cathode
Peng X, Wang L, Zhang XM, Gao B, Fu JJ, Xiao S, Huo KF, Chu PK |
| 221 - 228 |
A gold surface plasmon enhanced mesoporous titanium dioxide photoelectrode for the plastic-based flexible dye-sensitized solar cells
Chen HW, Hong CY, Kung CW, Mou CY, Wu KCW, Ho KC |
| 229 - 233 |
Study of new proton conducting glasses for fuel cells
Tiple SR, Deshpande VK |
| 234 - 242 |
alpha-Co(OH)(2)/carbon nanofoam composite as electrochemical capacitor electrode operating at 2 V in aqueous medium
Della Noce R, Eugenio S, Silva TM, Carmezim MJ, Montemor MF |
| 243 - 252 |
Residual stresses and strength of multilayer tape cast solid oxide fuel and electrolysis half-cells
Charlas B, Frandsen HL, Brodersen K, Henriksen PY, Chen M |
| 253 - 260 |
Nitrogen, phosphorus and iron doped carbon nanospheres with high surface area and hierarchical porous structure for oxygen reduction
Qiao XC, Peng HL, You CH, Liu FF, Zheng RP, Xu DW, Li XH, Liao SJ |
| 261 - 269 |
Electrochemical deposition of silver on manganese dioxide coated reduced graphene oxide for enhanced oxygen reduction reaction
Lee K, Ahmed MS, Jeon S |
| 270 - 277 |
Vanadium-based polyoxometalate as new material for sodium-ion battery anodes
Hartung S, Bucher N, Chen HY, Al-Oweini R, Sreejith S, Borah P, Zhao Y, Kortz U, Stimming U, Hoster HE, Srinivasan M |
| 278 - 287 |
Solute segregation and stress intensity factors at the edge of elastic thin-film electrodes under chemical equilibrium
Haftbaradaran H |
| 288 - 295 |
Microporous layer based on SiC for high temperature proton exchange membrane fuel cells
Lobato J, Zamora H, Canizares P, Plaza J, Rodrigo MA |
| 296 - 301 |
Greatly improved electrochemical performance of lithium-oxygen batteries with a bimetallic platinum-copper alloy catalyst
Lee M, Hwang Y, Yun KH, Chung YC |
| 302 - 307 |
Improving the cycling stability of Li2MnO3 by surface treatment
Klein A, Axmann P, Yada C, Wohlfahrt-Mehrens M |
| 308 - 313 |
A simple analytical model of coupled single flow channel over porous electrode in vanadium redox flow battery with serpentine flow channel
Ke XY, Alexander JID, Prahl JM, Savinell RF |
| 314 - 319 |
A stable and high-capacity anode for lithium-ion battery: Fe2O3 wrapped by few layered graphene
Wang YK, Yang LC, Hu RZ, Sun W, Liu JW, Ouyang LZ, Yuan B, Wang HH, Zhu M |
| 320 - 327 |
Enhanced reversible divalent zinc storage in a structurally stable alpha-MnO2 nanorod electrode
Alfaruqi MH, Gim J, Kim S, Song J, Jo J, Kim S, Mathew V, Kim J |
| 328 - 336 |
Design of Instantaneous High Power Supply System with power distribution management for portable military devices
Kwak K, Kwak D, Yoon J |
| 337 - 344 |
Surfactants assisted synthesis and electrochemical properties of nano-LiFePO4/C cathode materials for low temperature applications
Zheng FH, Yang CH, Ji X, Hu DL, Chen Y, Liu ML |
| 345 - 352 |
Time-domain fitting of battery electrochemical impedance models
Alavi SMM, Birkl CR, Howey DA |
| 353 - 358 |
Novel LiNi0.5Mn1.5O4 porous microellipsoids as high-performance cathode materials for lithium ion batteries
Pan J, Deng JQ, Yao QR, Zou YJ, Wang ZM, Zhou HY, Sun LX, Rao GH |
| 359 - 367 |
Influence of dry mixing and distribution of conductive additives in cathodes for lithium ion batteries
Bauer W, Notzel D, Wenzel V, Nirschl H |
| 368 - 375 |
Natural macromolecule based carboxymethyl cellulose as a gel polymer electrolyte with adjustable porosity for lithium ion batteries
Zhu YS, Xiao SY, Li MX, Chang Z, Wang FX, Gao J, Wu YP |
| 376 - 383 |
A new synthetic method of titanium oxyfluoride and its application as an anode material for rechargeable lithium batteries
Myung ST, Kikuchi M, Yoon CS, Yashiro H, Sun YK |
| 384 - 392 |
Preparing alkaline anion exchange membrane with enhanced hydroxide conductivity via blending imidazolium-functionalized and sulfonated poly(ether ether ketone)
Li Z, Jiang ZY, Tian HM, Wang SW, Zhang B, Cao Y, He GW, Li ZY, Wu H |
| 393 - 400 |
Computational comparison of oxidation stability: Solvent/salt monomers vs solvent-solvent/salt pairs
Kim DY, Park MS, Lim Y, Kang YS, Park JH, Doo SG |
| 401 - 408 |
The power of Nb-substituted TiO2 in Li-ion batteries: Morphology transformation induced by high concentration substitution
Yang H, Lan CK, Duh JG |
| 409 - 418 |
A model-based approach for current voltage analyses to quantify degradation and fuel distribution in solid oxide fuel cell stacks
Linder M, Hocker T, Meier C, Holzer L, Friedrich KA, Iwanschitz B, Mai A, Schuler JA |
| 419 - 425 |
Influence of reduction conditions on electrical properties of NiO-zirconia composites for solid oxide fuel cell electrode
Orui H, Nozawa K, Arai H, Kanno R |
| 426 - 433 |
Synthesis, characterization and fuel cell performance tests of boric acid and boron phosphate doped, sulphonated and phosphonated poly(vinyl alcohol) based composite membranes
Sahin A, Ar I |
| 434 - 440 |
Challenges for lithium species identification in complementary Auger and X-ray photoelectron spectroscopy
Hoffmann M, Zier M, Oswald S, Eckert J |
| 441 - 450 |
Spot-free catalysis using gold carbon nanotube & gold graphene composites for hydrogen evolution reaction
Siddhardha RSS, Lakshminarayanan V, Ramamurthy SS |
| 451 - 460 |
Cobaltite oxide nanosheets anchored graphene nanocomposite as an efficient oxygen reduction reaction (ORR) catalyst for the application of lithium-air batteries
Kumar GG, Christy M, Jang H, Nahm KS |
| 461 - 472 |
Study on the electronic properties and molecule adsorption of W18O49 nanowires as a catalyst support in the cathodes of direct methanol fuel cells
Karim NA, Kamarudin SK, Shyuan LK, Yaakob Z, Daud WRW, Kadhum AAH |
| 473 - 481 |
Investigating the effect of thermal gradients on stress in solid oxide fuel cell anodes using combined synchrotron radiation and thermal imaging
Robinson JB, Brown LD, Jervis R, Taiwo OO, Heenan TMM, Millichamp J, Mason TJ, Neville TP, Clague R, Eastwood DS, Reinhard C, Lee PD, Brett DJL, Shearing PR |
