| 1 - 10 |
Nitrogen-doped Co/Co9S8/partly-graphitized carbon as durable catalysts for oxygen reduction in microbial fuel cells
Li R, Dai Y, Chen BB, Zou JL, Jiang BJ, Fu HG |
| 11 - 16 |
A peapod-inspired MnO@C core-shell design for lithium ion batteries
Wang SB, Xing YL, Xiao CL, Xu HZ, Zhang SC |
| 17 - 24 |
Conversion of uniform graphene oxide/polypyrrole composites into functionalized 3D carbon nanosheet frameworks with superior supercapacitive and sodium-ion storage properties
Wang HW, Zhang Y, Sun WP, Tan HT, Franklin JB, Guo YY, Fan HS, Ulaganathan M, Wu XL, Luo ZZ, Madhavi S, Yan QY |
| 25 - 30 |
Polymer counter electrode of poly(3,4-ethylenedioxythiophene):Poly(4-styrenesulfonate) containing TiO2 nano-particles for dye-sensitized solar cells
Seo H, Son MK, Itagaki N, Koga K, Shiratani M |
| 31 - 37 |
A singular flexible cathode for room temperature sodium/sulfur battery
Kim I, Kim CH, Choi SH, Ahn JP, Ahn JH, Kim KW, Cairns EJ, Ahn HJ |
| 38 - 44 |
Stripe- or square-patterned arrays of tin dioxide nanowires for use in lithium-ion battery electrodes
Lee SH, Kim WB |
| 45 - 55 |
Analysis of electrolyte level change in a lithium air battery
Huang J, Faghri A |
| 56 - 62 |
A lumped model of venting during thermal runaway in a cylindrical Lithium Cobalt Oxide lithium-ion cell
Coman PT, Rayman S, White RE |
| 63 - 68 |
Improved electrochemical properties of Li(Ni0.6Mn0.2Co0.2)O-2 by surface coating with Li1.3Al0.3Ti1.7(PO4)(3)
Choi JW, Lee JW |
| 69 - 76 |
Mg-doped Li2FeSiO4/C as high-performance cathode material for lithium-ion battery
Qu L, Luo D, Fang SH, Liu Y, Yang L, Hirano S, Yang CC |
| 77 - 85 |
Study of lithium diffusivity in amorphous silicon via finite element analysis
Wang M, Xiao XR, Huang XS |
| 86 - 97 |
Electrochemical model parameter identification of a lithium-ion battery using particle swarm optimization method
Rahman MA, Anwar S, Izadian A |
| 98 - 104 |
Enhanced cycling performance of a Li metal anode in a dimethylsulfoxide-based electrolyte using highly concentrated lithium salt for a lithium-oxygen battery
Togasaki N, Momma T, Osaka T |
| 105 - 111 |
Municipal sludge-derived carbon anode with nitrogen- and oxygen-containing functional groups for high-performance microbial fuel cells
Ma XX, Feng CH, Zhou WJ, Yu H |
| 112 - 113 |
Comment on "Review of characterization methods for supercapacitor modelling"
Uchaikin VV, Sibatov RT, Ambrozevich SA |
| 114 - 121 |
Effect of Al substitution on the microstructure and lithium storage performance of nickel hydroxide
Li YW, Pan GL, Xu WQ, Yao JH, Zhang LZ |
| 122 - 128 |
Design, fabrication, and characterization of a proposed microchannel water electrolyzer
Oruc ME, Desai AV, Nuzzo RG, Kenis PJA |
| 129 - 137 |
In situ growth of manganese oxide on 3D graphene by a reverse microemulsion method for supercapacitors
Wei B, Wang LD, Wang Y, Yuan YN, Miao QH, Yang ZY, Fei WD |
| 138 - 145 |
High open voltage and superior light-harvesting dye-sensitized solar cells fabricated by flower-like hierarchical TiO2 composed with highly crystalline nanosheets
Que YP, Weng J, Hu LH, Wu JH, Dai SY |
| 146 - 151 |
An approach for restoring the proton conductivity of sintered tin pyrophosphate membranes for intermediate temperature fuel cells
Li W, Bose AB, Rusakova IA |
| 152 - 159 |
Using nitrogen-rich polymeric network and iron(II) acetate as precursors to synthesize highly efficient electrocatalyst for oxygen reduction reaction in alkaline media
Yang M, Chen HB, Yang DG, Gao Y, Li HM |
| 160 - 172 |
Inverse parameter determination in the development of an optimized lithium iron phosphate - Graphite battery discharge model
Maheshwari A, Dumitrescu MA, Destro M, Santarelli M |
| 173 - 180 |
Carbon-coated Mo3Sb7 composite as anode material for sodium ion batteries with long cycle life
Li W, Hu C, Zhou M, Tao HW, Wang KL, Cheng SJ, Jiang K |
| 181 - 189 |
Enhanced performance of dye-sensitized solar cell using Bi2Te3 nanotube/ZnO nanoparticle composite photoanode by the synergistic effect of photovoltaic and thermoelectric conversion
Dou YY, Wu F, Fang L, Liu GB, Mao CY, Wan K, Zhou M |
| 190 - 198 |
Facile synthesis of carbon nanofibers-bridged porous carbon nanosheets for high-performance supercapacitors
Jiang YT, Yan J, Wu XL, Shan DD, Zhou QH, Jiang LL, Yang DR, Fan ZJ |
| 199 - 207 |
Detailed study of heat generation in porous LiCoO2 electrodes
Heubner C, Schneider M, Michaelis A |
| 208 - 213 |
Bipolarly stacked electrolyser for energy and space efficient fabrication of supercapacitor electrodes
Liu XJ, Wu T, Dai ZX, Tao KR, Shi Y, Peng C, Zhou XH, Chen GZ |
| 214 - 219 |
A flexible freestanding Si/rGO hybrid film anode for stable Li-ion batteries
Zhang HX, Jing SL, Hu YJ, Jiang H, Li CZ |
| 220 - 230 |
New method for parameter estimation of an electrochemical-thermal coupling model for LiCoO2 battery
Li JF, Wang LX, Lyu C, Wang H, Liu X |
| 231 - 243 |
Natural abundance O-17, Li-6 NMR and molecular modeling studies of the solvation structures of lithium bis(fluorosulfonyl)imide/1,2-dimethoxyethane liquid electrolytes
Wan C, Hu MY, Borodin O, Qian JF, Qin ZH, Zhang JG, Hu JZ |
| 244 - 250 |
Evaluation and coupling of a membraneless nanofluidic device for low-power applications
Gurrola MP, Ortiz-Ortega E, Farias-Zuniga C, Chavez-Ramirez AU, Ledesma-Garcia J, Arriaga LG |
| 251 - 258 |
Platinum-rare earth cathodes for direct borohydride-peroxide fuel cells
Cardoso DSP, Santos DMF, Sljukic B, Sequeira CAC, Maccio D, Saccone A |
| 259 - 269 |
Electron microscopy investigations of changes in morphology and conductivity of LiFePO4/C electrodes
Scipioni R, Jorgensen PS, Ngo DT, Simonsen SB, Liu Z, Yakal-Kremski KJ, Wang HQ, Hjelm J, Norby P, Barnett SA, Jensen SH |
| 270 - 279 |
Industrial-grade rare-earth and perovskite oxide for high-performance electrolyte layer-free fuel cell
Xia C, Wang BY, Ma Y, Cai YX, Afzal M, Liu YY, He YJ, Zhang W, Dong WJ, Li JJ, Zhu B |
| 280 - 288 |
Improved electrochemical in-situ characterization of polymer electrolyte membrane fuel cell stacks
Hartung I, Kirsch S, Zihrul P, Muller O, von Unwerth T |
| 289 - 296 |
Platinum-based nanocomposite electrodes for low-temperature solid oxide fuel cells with extended lifetime
Lee YH, Cho GY, Chang I, Ji S, Kim YB, Cha SW |
| 297 - 307 |
Improvement of capacitive performances of symmetric carbon/carbon supercapacitors by addition of nanostructured polypyrrole powder
Benhaddad L, Gamby J, Makhloufi L, Pailleret A, Pillier F, Takenouti H |
| 308 - 319 |
Novel application of differential thermal voltammetry as an in-depth state-of-health diagnosis method for lithium-ion batteries
Merla Y, Wu B, Yufit V, Brandon NP, Martinez-Botas RF, Offer GJ |
| 320 - 328 |
Porous polymer electrolytes with high ionic conductivity and good mechanical property for rechargeable batteries
Liang B, Jiang QH, Tang SQ, Li SL, Chen X |
| 329 - 339 |
Photoelectrochemical salt water splitting using ternary silver-tin-selenide photoelectrodes
Cheng KW, Wu YH, Chiu TH |
| 340 - 350 |
Fluorinated electrolyte for 4.5 V Li(Ni0.4Mn0.4Co0.2)O-2/graphite Li-ion cells
Xia J, Nie M, Burns JC, Xiao A, Lamanna WM, Dahn JR |
| 351 - 357 |
Autothermal reforming of dimethyl ether with CGO-based precious metal catalysts
Choi S, Bae J |
| 358 - 367 |
Theoretical design strategies of bipolar membrane fuel cell with enhanced self-humidification behavior
Li QS, Gong J, Peng SK, Lu SF, Sui PC, Djilali N, Xiang Y |
| 368 - 378 |
Critical parameters governing energy density of Li-storage cathode materials unraveled by confirmatory factor analysis
Sohn KS, Han SC, Park WB, Pyo M |
| 379 - 384 |
Cathode reaction mechanism on the h-BN/Ni (111) heterostructure for the lithium-oxygen battery
Lee M, Hwang Y, Yun KH, Chung YC |
| 385 - 390 |
Y0.08Sr0.88TiO3-CeO2 composite as a diffusion barrier layer for stainless-steel supported solid oxide fuel cell
Kim KJ, Kim SJ, Choi GM |
| 391 - 400 |
Hierarchically porous and heteroatom doped carbon derived from tobacco rods for supercapacitors
Zhao YQ, Lu M, Tao PY, Zhang YJ, Gong XT, Yang Z, Zhang GQ, Li HL |
| 401 - 409 |
A melt route for the synthesis of activated carbon derived from carton box for high performance symmetric supercapacitor applications
Wang DW, Fang GL, Xue T, Ma JF, Geng GH |
| 410 - 415 |
Carbon-coated silicon nanotube arrays on carbon cloth as a hybrid anode for lithium-ion batteries
Wang W, Gu L, Qian HL, Zhao M, Ding X, Peng XS, Sha J, Wang YW |
| 416 - 425 |
Neutral and anionic tetrazole-based ligands in designing novel ruthenium dyes for dye-sensitized solar cells
Wu GH, Kaneko R, Zhang YH, Shinozaki Y, Sugawa K, Islam A, Han LY, Bedja I, Gupta RK, Shen Q, Otsuki J |
| 426 - 434 |
Graphene-nanosheet-wrapped LiV3O8 nanocomposites as high performance cathode materials for rechargeable lithium-ion batteries
Wang ZK, Shu J, Zhu QC, Cao BY, Chen H, Wu XY, Bartlett BM, Wang KX, Chen JS |
| 435 - 442 |
In situ lithiated FeF3/C nanocomposite as high energy conversion-reaction cathode for lithium-ion batteries
Fan XL, Zhu YJ, Luo C, Gao T, Suo LM, Liou SC, Xu K, Wang CS |
| 443 - 448 |
Cationic cetylpyridinium micelle as a novel electrolyte system for dye-sensitized solar cells
Thanacharoenchumrut S, Angboonpong N, Pakawatpanurut P |
| 449 - 453 |
Highly active nanoscale Ni - Yttria stabilized zirconia anodes for micro-solid oxide fuel cell applications
Buyukaksoy A, Birss VI |
| 454 - 461 |
Unravelling the low thermal expansion coefficient of cation-substituted YBaCo4O7+delta
Kan WH, Lai KY, Huq A, Manthiram A |
| 462 - 467 |
Rod-shape porous carbon derived from aniline modified lignin for symmetric supercapacitors
Wang KL, Cao YH, Wang XM, Castro MA, Luo B, Gu ZR, Liu J, Hoefelmeyer JD, Fan QH |
| 468 - 473 |
Surface plasmon resonance enhanced multi-shell-modified upconversion NaYF4:Yb3+, Er3+@SiO2@Au@TiO2 crystallites for dye-sensitized solar cells
Luoshan MD, Bai LH, Bu CH, Liu XL, Zhu YD, Guo KM, Jiang RH, Li MY, Zhao XZ |
| 474 - 480 |
Electrochemical characteristic of based on carbon mixed with organic metal complex (Co(mqph)) in alkaline media Li-air battery
Ahn CH, Okada T, Ishida M, Yoo E, Zhou HS |
| 481 - 488 |
Fast hydrogen sorption from MgH2-VO2(B) composite materials
Milosevic S, Kurko S, Pasquini L, Matovic L, Vujasin R, Novakovic N, Novakovic JG |
| 489 - 495 |
Two-ply yarn supercapacitor based on carbon nanotube/stainless steel core-sheath yarn electrodes and ionic liquid electrolyte
Lyu XM, Su FH, Miao MH |
| 496 - 509 |
Multiscale modeling of lithium-ion battery electrodes based on nano-scale X-ray computed tomography
Kashkooli AG, Farhad S, Lee DU, Feng K, Litster S, Babu SK, Zhu LK, Chen ZW |
| 510 - 518 |
Binder-free network-enabled MoS2-PPY-rGO ternary electrode for high capacity and excellent stability of lithium storage
Xie D, Wang DH, Tang WJ, Xia XH, Zhang YJ, Wang XL, Gu CD, Tu JP |
| 519 - 525 |
Novel binary deep eutectic electrolytes for rechargeable Li-ion batteries based on mixtures of alkyl sulfonamides and lithium perfluoroalkylsulfonimide salts
Geiculescu OE, DesMarteau DD, Creager SE, Haik O, Hirshberg D, Shilina Y, Zinigrad E, Levi MD, Aurbach D, Halalay IC |
| 526 - 537 |
Corrosion behavior of surface treated steel in liquid sodium negative electrode of liquid metal battery
Lee J, Shin SH, Lee JK, Choi S, Kim JH |
| 538 - 551 |
Charge transport in the electrospun nanofiber composite membrane's three-dimensional fibrous structure
DeGostin MB, Peracchio AA, Myles TD, Cassenti BN, Chiu WKS |
| 552 - 560 |
Facile synthesis of a MoO2-Mo2C-C composite and its application as favorable anode material for lithium-ion batteries
Zhu YP, Wang SF, Zhong YJ, Cai R, Li L, Shao ZP |
| 561 - 568 |
Nitrogen-doped graphene/CoNi alloy encased within bamboo-like carbon nanotube hybrids as cathode catalysts in microbial fuel cells
Hou Y, Yuan HY, Wen ZH, Cui SM, Guo XR, He Z, Chen JH |
| 569 - 577 |
Polydopamine as a promising candidate for the design of high performance and corrosion-tolerant polymer electrolyte fuel cell electrodes
Long HT, Del Frari D, Martin A, Didierjean J, Ball V, Michel M, El Ahrach HI |
| 578 - 586 |
Interface and grain boundary resistance of a lithium lanthanum titanate (Li3xLa2/3-xTiO3, LLTO) solid electrolyte
Uhlmann C, Braun P, Illig J, Weber A, Ivers-Tiffee E |
| 587 - 592 |
Triethylborate as an electrolyte additive for high voltage layered lithium nickel cobalt manganese oxide cathode of lithium ion battery
Wang ZS, Xing LD, Li JH, Xu MQ, Li WS |
| 593 - 598 |
Tungsten disulphide nanorattle: A new type of high performance electrocatalyst for hydrogen evolution reaction
Wen Y, Xia YD, Zhang SW |
| 599 - 603 |
Lithium intercalation and structural changes at the LiCoO2 surface under high voltage battery operation
Taminato S, Hirayama M, Suzuki K, Tamura K, Minato T, Arai H, Uchimoto Y, Ogumi Z, Kanno R |
| 604 - 612 |
Combined electrochemical and X-ray tomography study of the high temperature evolution of Nickel - Yttria Stabilized Zirconia solid oxide fuel cell anodes
Kennouche D, Chen-Wiegart YCK, Riscoe C, Wang J, Barnett SA |
| 613 - 623 |
Application of continuum percolation theory for modeling single- and two-phase characteristics of anisotropic carbon paper gas diffusion layers
Ghanbarian B, Cheng P |
| 624 - 633 |
A green and environment-friendly gel polymer electrolyte with higher performances based on the natural matrix of lignin
Gong SD, Huang Y, Cao HJ, Lin YH, Li Y, Tang SH, Wang MS, Li X |
| 634 - 640 |
Anodic nanoporous SnO2 grown on Cu foils as superior binder-free Na-ion battery anodes
Bian HD, Zhang J, Yuen MF, Kang WP, Zhan YW, Yu DYW, Xu ZT, Li YY |
| 641 - 648 |
Microstructural study on degradation mechanism of layered LiNi0.6Co0.2Mn0.2O2 cathode materials by analytical transmission electron microscopy
Kim NY, Yim T, Song JH, Yu JS, Lee Z |
| 649 - 656 |
Amorphous Fe2O3 nanoshells coated on carbonized bacterial cellulose nanofibers as a flexible anode for high-performance lithium ion batteries
Huang Y, Lin ZX, Zheng MB, Wang TH, Yang JZ, Yuan FS, Lu XY, Liu L, Sun DP |
| 657 - 664 |
A first-principles study on the effect of oxygen content on the structural and electronic properties of silicon suboxide as anode material for lithium ion batteries
Rahaman O, Mortazavi B, Rabczuk T |
| 665 - 672 |
Simultaneously improved capacity and initial coulombic efficiency of Li-rich cathode Li[Li0.2Mn0.54Co0.13Ni0.13]O-2 by enlarging crystal cell from a nanoplate precursor
Dai DM, Li B, Tang HW, Chang K, Jiang K, Chang ZR, Yuan XZ |
| 673 - 677 |
Reconstruction and analysis of fuel cell gas diffusion layers using fiber spacing rather than pore size data: Questioned validity of widely-used porosity-based thermal conductivity models
Sadeghifar H |
| 678 - 683 |
Polymeric ionic liquid-plastic crystal composite electrolytes for lithium ion batteries
Li XW, Zhang ZX, Li SJ, Yang L, Hirano S |
| 684 - 689 |
Radio frequency magnetron sputtering of Li7La3Zr2O12 thin films for solid-state batteries
Lobe S, Dellen C, Finsterbusch M, Gehrke HG, Sebold D, Tsai CL, Uhlenbruck S, Guillon O |
| 690 - 696 |
Electrochemical atomic layer deposition of Bi2S3/Sb2S3 quantum dots co-sensitized TiO2 nanorods solar cells
Li WX, Yang JY, Jiang QH, Luo YB, Hou YR, Zhou SQ, Xiao Y, Fu LW, Zhou ZW |
| 697 - 704 |
Enhancement of direct urea-hydrogen peroxide fuel cell performance by three-dimensional porous nickel-cobalt anode
Guo F, Cao DX, Du MM, Ye K, Wang GL, Zhang WP, Gao YY, Cheng K |
| 705 - 714 |
Electricity generation and bivalent copper reduction as a function of operation time and cathode electrode material in microbial fuel cells
Wu D, Huang LP, Quan X, Li Puma G |
| 715 - 723 |
Hierarchical micro & mesoporous silicon carbide flakes for high-performance electrochemical capacitive energy storage
Kim M, Oh I, Kim J |
| 724 - 730 |
Insights on the fundamental lithium storage behavior of all-solid-state lithium batteries containing the LiNi0.8Co0.15Al0.05O2 cathode and sulfide electrolyte
Peng G, Yao XY, Wan HL, Huang BX, Yin JY, Ding F, Xu XX |
| 731 - 737 |
Porous lithium nickel cobalt manganese oxide hierarchical nanosheets as high rate capability cathodes for lithium ion batteries
Li JL, Wang XF, Zhao JW, Chen J, Jia TK, Cao CB |
| 738 - 745 |
Dual-carbon enhanced silicon-based composite as superior anode material for lithium ion batteries
Wang J, Liu DH, Wang YY, Hou BH, Zhang JP, Wang RS, Wu XL |
| 746 - 752 |
Effects of compatibility of polymer binders with solvate ionic liquid electrolytes on discharge and charge reactions of lithium-sulfur batteries
Nakazawa T, Ikoma A, Kido R, Ueno K, Dokko K, Watanabe M |
| 753 - 761 |
Novel insight toward engineering of arrayed Cu@Sn nanoelectrodes: Rational microstructure refinement and its remarkable "harvesting effect" on lithium storage capability
Wu XM, Zhang SC, Qi T, Fang H, Liu GR, Xing YL |
| 762 - 771 |
Investigation of the electrochemically active surface area and lithium diffusion in graphite anodes by a novel OsO4 staining method
Pfaffmann L, Birkenmaier C, Muller M, Bauer W, Mitsch T, Feinauer J, Kramer Y, Scheiba F, Hintennach A, Schleid T, Schmidt V, Ehrenberg H |
| 772 - 781 |
1H,1H,5H-Perfluoropenty1-1,1,2,2-tetrafluoroethylether as a co-solvent for high voltage LiNi1/3Co1/3Mn1/3O2/graphite cells
Wang CY, Zuo XX, Zhao MK, Xiao X, Yu L, Nan JM |
| 782 - 787 |
Effect of flow field on the performance of an all-vanadium redox flow battery
Kumar S, Jayanti S |
| 788 - 795 |
Original implementation of Electrochemical Impedance Spectroscopy (EIS) in symmetric cells: Evaluation of post-mortem protocols applied to characterize electrode materials for Li-ion batteries
Gordon IJ, Genies S, Larbi GS, Boulineau A, Daniel L, Alias M |
| 796 - 805 |
Modification of photoelectrode with thiol-functionalized Calix[4]arenes as interface energy barrier for high efficiency in dye-sensitized solar cells
Akin S, Gulen M, Sayin S, Azak H, Yildiz HB, Sonmezoglu S |
| 806 - 814 |
Inhomogeneous degradation of graphite anodes in automotive lithium ion batteries under low-temperature pulse cycling conditions
Burow D, Sergeeva K, Calles S, Schorb K, Borger A, Roth C, Heitjans P |
| 815 - 825 |
Protective coatings on stainless steel bipolar plates for proton exchange membrane (PEM) electrolysers
Gago AS, Ansar SA, Saruhan B, Schulz U, Lettenmeier P, Canas NA, Gazdzicki P, Morawietz T, Hiesgen R, Arnold J, Friedrich KA |
| 826 - 833 |
Polarization curve measurements combined with potential probe sensing for determining current density distribution in vanadium redox-flow batteries
Becker M, Bredemeyer N, Tenhumberg N, Turek T |
| 834 - 843 |
Effect of end-group cross-linking on transport properties of sulfonated poly(phenylene sulfide nitrile)s for proton exchange membranes
Kang NR, Lee SY, Shin DW, Hwang DS, Lee KH, Cho DH, Kim JH, Lee YM |
| 844 - 848 |
Electrochemical performance of lithium-sulfur batteries based on a sulfur cathode obtained by H2S gas treatment of a lithium salt
Dressel CB, Jha H, Eberle AM, Gasteiger HA, Fassler TF |
| 849 - 855 |
Direct formation of a current collector layer on a partially reduced graphite oxide film using sputter-assisted metal deposition to fabricate high-power micro-supercapacitor electrodes
Byun S, Yu J |
| 856 - 865 |
Multi-scale analysis of an electrochemical model including coupled diffusion, stress, and nonideal solution in a silicon thin film anode
Gwak Y, Moon J, Cho M |
| 866 - 874 |
Oligothiophene-linked D-pi-A type phenothiazine dyes for dye-sensitized solar cells
Gao HH, Qian X, Chang WY, Wang SS, Zhu YZ, Zheng JY |
| 875 - 882 |
Performance evaluation of a proof-of-concept 70 W internal reforming methanol fuel cell system
Avgouropoulos G, Schlicker S, Schelhaas KP, Papavasiliou J, Papadimitriou KD, Theodorakopoulou E, Gourdoupi N, Machocki A, Ioannides T, Kallitsis JK, Kolb G, Neophytides S |
| 883 - 890 |
Enhancing stability of octahedral PtNi nanoparticles for oxygen reduction reaction by halide treatment
Choi J, Lee Y, Kim J, Lee H |
| 891 - 897 |
An efficient electron transport material of tin oxide for planar structure perovskite solar cells
Murugadoss G, Kanda H, Tanaka S, Nishino H, Ito S, Imahoric H, Umeyama T |
| 898 - 906 |
Modeling the effect of membrane conductivity on the performance of alkaline fuel cells
Raya IP, Ellis MW, Hernandez-Guerrero A, Elizalde-Blancas F |
