| 9847 - 9855 |
Mass and heat transport in direct methanol fuel cells
Ismail A, Kamarudin SK, Daud WRW, Masdar S, Yosfiah MR |
| 9856 - 9861 |
Radical-induced degradation mechanism of perfluorinated polymer electrolyte membrane
Uegaki R, Akiyama Y, Tojo S, Honda Y, Nishijima S |
| 9862 - 9867 |
Nitrogen-doped ultrathin carbon nanofibers derived from electrospinning: Large-scale production, unique structure, and application as electrocatalysts for oxygen reduction
Qiu YJ, Yu J, Shi TN, Zhou XS, Bai XD, Huang JY |
| 9868 - 9875 |
A graphite-coated carbon fiber epoxy composite bipolar plate for polymer electrolyte membrane fuel cell
Yu HN, Lim JW, Suh JD, Lee DG |
| 9876 - 9883 |
Synthesis of poly(arylene ether sulfone)s with locally and densely sulfonated pentiptycene pendants as highly conductive polymer electrolyte membranes
Gong FX, Zhang SB |
| 9884 - 9889 |
Pt/C catalyst degradation in proton exchange membrane fuel cells due to high-frequency potential cycling induced by switching power converters
Uno M, Tanaka K |
| 9890 - 9899 |
Nickel hydroxide deposited indium tin oxide electrodes as electrocatalysts for direct oxidation of carbohydrates in alkaline medium
Ganesh V, Farzana S, Berchmans S |
| 9900 - 9905 |
Enhancement of cell performance using a gadolinium strontium cobaltite coated cathode in molten carbonate fuel cells
Song SA, Jang SC, Han J, Yoon SP, Nam SW, Oh IH, Lim TH |
| 9906 - 9915 |
Degradation of polymer electrolyte membrane fuel cells repetitively exposed to reverse current condition under different temperature
Jo YY, Cho E, Kim JH, Lim TH, Oh IH, Kim SK, Kim HJ, Jang JH |
| 9916 - 9923 |
Sulfonated poly(ether ether ketone)/polybenzimidazole oligomer/epoxy resin composite membranes in situ polymerization for direct methanol fuel cell usages
Han MM, Zhang G, Li MY, Wang S, Liu ZG, Li HT, Zhang Y, Xu D, Wang J, Ni J, Na H |
| 9924 - 9930 |
Studies of electrochemical performance of carbon supported Pt-Cu nanoparticles as anode catalysts for direct borohydride-hydrogen peroxide fuel cell
Yi LH, Hu BA, Song YF, Wang XY, Zou GS, Yi W |
| 9931 - 9938 |
Experimental analysis of spatio-temporal behavior of anodic dead-end mode operated polymer electrolyte fuel cell
Manokaran A, Pushpavanam S, Sridhar P, Pitchumani S |
| 9939 - 9945 |
Performance of LaBaCo(2)O(5+delta)-Ag with B(2)O(3)-Bi(2)O(3)-PbO frit composite cathodes for intermediate-temperature solid oxide fuel cells
Li RF, Gao L, Ge L, Zheng YF, Zhou M, Chen H, Guo LC |
| 9946 - 9954 |
Cross-linked miscible blend membranes of sulfonated poly(arylene ether sulfone) and sulfonated polyimide for polymer electrolyte fuel cell applications
Chen SW, Zhang X, Chen K, Endo N, Higa M, Okamoto K, Wang LJ |
| 9955 - 9960 |
In situ ion exchange preparation of Pt/carbon nanotubes electrode: Effect of two-step oxidation of carbon nanotubes
Zhang S, Shao YY, Gao YZ, Chen GY, Lin YH, Yin GP |
| 9961 - 9964 |
Low-temperature ceria-electrolyte solid oxide fuel cells for efficient methanol oxidation
Meng X, Zhan Z, Liu XJ, Wu H, Wang SR, Wen TL |
| 9965 - 9969 |
(Ni(0.75)Fe(0.25)-xMgO)/YSZ anode for direct methane solid-oxide fuel cells
Liu Y, Bai YH, Liu J |
| 9970 - 9974 |
Catalyst-free growth of large scale nitrogen-doped carbon spheres as efficient electrocatalysts for oxygen reduction in alkaline medium
Zhou XM, Yang Z, Nie HG, Yao Z, Zhang LJ, Huang SM |
| 9975 - 9979 |
Effects of pore formers on microstructure and performance of cathode membranes for solid oxide fuel cells
Nie LF, Liu JC, Zhang YJ, Liu ML |
| 9980 - 9984 |
Enhanced sinterability of BaZr(0.1)Ce(0.7)Y(0.1)Yb(0.1)O(3-delta) by addition of nickel oxide
Liu Y, Yang L, Liu MF, Tang ZY, Liu ML |
| 9985 - 9988 |
Doubling the diffusivity measurement efficiency in solid oxide fuel cells (SOFCs) via a bi-sensor electrochemical cell
He WD, Wang B, Zhao HB, Jiao Y |
| 9989 - 9997 |
Effect of Ni content in SOFC Ni-YSZ cermets: A three-dimensional study by FIB-SEM tomography
Vivet N, Chupin S, Estrade E, Richard A, Bonnamy S, Rochais D, Bruneton E |
| 9998 - 10009 |
Development and design of experiments optimization of a high temperature proton exchange membrane fuel cell auxiliary power unit with onboard fuel processor
Karstedt J, Ogrzewalla J, Severin C, Pischinger S |
| 10010 - 10018 |
Gas transport and internal-reforming chemistry in Ni-YSZ and ferritic-steel supports for solid-oxide fuel cells
Richards AE, McNeeley MG, Kee RJ, Sullivan NP |
| 10019 - 10031 |
Computational modeling of microfluidic fuel cells with flow-through porous electrodes
Krishnamurthy D, Johansson EO, Lee JW, Kjeang E |
| 10032 - 10037 |
Improvement of corrosion resistance and electrical conductivity of 304 stainless steel using close field unbalanced magnetron sputtered carbon film
Jin WH, Feng K, Li ZG, Cai X, Yu L, Zhou DH |
| 10038 - 10049 |
Syngas suitability for solid oxide fuel cells applications produced via biomass steam gasification process: Experimental and modeling analysis
Pieratti E, Baratieri M, Ceschini S, Tognana L, Baggio P |
| 10050 - 10056 |
A simple, analytic model of polymer electrolyte membrane fuel cell anode recirculation at operating power including nitrogen crossover
Promislow K, St-Pierre J, Wetton B |
| 10057 - 10068 |
Droplet and slug formation in polymer electrolyte membrane fuel cell flow channels: The role of interfacial forces
Colosqui CE, Cheah MJ, Kevrekidis IG, Benziger JB |
| 10069 - 10073 |
Micro-solid oxide fuel cells using free-standing 3 mol.% yttria-stabilised-tetragonal-zirconia-polycrystal electrolyte foils
Evans A, Bieberle-Hutter A, Bonderer LJ, Stuckenholz S, Gauckler LJ |
| 10074 - 10078 |
Integrated thermal management strategy and materials for solid oxide fuel cells
Tucker MC, Cheng L |
| 10079 - 10087 |
Enhanced test methods to characterise automotive battery cells
Mulder G, Omar N, Pauwels S, Leemans F, Verbrugge B, De Nijs W, Van den Bossche P, Six D, Van Mierlo J |
| 10088 - 10093 |
Maximum equivalent power output and performance optimization analysis of an alkaline fuel cell/heat-driven cycle hybrid system
Zhang XQ, Chen JC |
| 10094 - 10104 |
Investigating the technical, economic and environmental performance of electric vehicles in the real-world: A case study using electric scooters
Bishop JDK, Doucette RT, Robinson D, Mills B, McCulloch MD |
| 10105 - 10111 |
Controllable hydrogen generation by use smart hydrogel reactor containing Ru nano catalyst and magnetic iron nanoparticles
Sahiner N, Ozay O, Inger E, Aktas N |
| 10112 - 10119 |
Microwave-assisted hydrothermal synthesis of transition-metal doped ZnIn(2)S(4) and its photocatalytic activity for hydrogen evolution under visible light
Shen SH, Chen J, Wang XX, Zhao L, Guo LJ |
| 10120 - 10125 |
Electrochemical stability of lithium bis(oxatlato) borate containing solid polymer electrolyte for lithium ion batteries
Zhang D, Yana H, Zhu Z, Zhang H, Wang J, Qilu |
| 10126 - 10132 |
Effects of supersonic treatment on the electrochemical properties and crystal structure of LiMn(1.5)Ni(0.5)O(4) as a cathode material for Li ion batteries
Saruwatari H, Ishikawa T, Korechika Y, Kitamura N, Takami N, Idemoto Y |
| 10133 - 10140 |
Effect of annealing on the electrochemical properties of ramsdellite-type lithium titanium oxide
Setiawati E, Hayashi M, Takahashi M, Shodai T, Saito K |
| 10141 - 10147 |
Capacity-fading prediction of lithium-ion batteries based on discharge curves analysis
Honkura K, Takahashi K, Horiba T |
| 10148 - 10155 |
Solution combustion synthesis of layered LiNi0.5Mn0.5O2 and its characterization as cathode material for lithium-ion cells
Manikandan P, Ananth MV, Kumar TP, Raju M, Periasamy P, Manimaran K |
| 10156 - 10162 |
Preparation and characterization of electrospun poly(acrylonitrile) fibrous membrane based gel polymer electrolytes for lithium-ion batteries
Carol P, Ramakrishnan P, John B, Cheruvally G |
| 10163 - 10168 |
Simultaneous improvement in ionic conductivity and mechanical properties of multi-functional block-copolymer modified solid polymer electrolytes for lithium ion batteries
Ji JY, Keen J, Zhong WH |
| 10169 - 10175 |
Synthesis and electrochemical properties of Na-doped Li3V2(PO4)(3) cathode materials for Li-ion batteries
Kuang Q, Zhao YM, Liang ZY |
| 10176 - 10182 |
Solvothermal synthesis of hierarchical LiFePO(4) microflowers as cathode materials for lithium ion batteries
Wang Q, Zhang WX, Yang ZH, Weng SY, Jin ZJ |
| 10183 - 10190 |
Investigation of compatible anode systems for LaNbO(4)-based electrolyte in novel proton conducting solid oxide fuel cells
Magraso A, Fontaine ML |
| 10191 - 10200 |
Direct synthesis and coating of advanced nanocomposite negative electrodes for Li-ion batteries via electrospraying
Valvo M, Garcia-Tamayo E, Lafont U, Kelder EM |
| 10201 - 10206 |
Synthesis of LiNiO(2) cathode materials with homogeneous Al doping at the atomic level
Liu ZC, Zhen HH, Kim Y, Liang CD |
| 10207 - 10212 |
Enhancing Ni-Sn nanowire lithium-ion anode performance by tailoring active/inactive material interfaces
Tian M, Wang W, Lee SH, Lee YC, Yang RG |
| 10213 - 10221 |
Calendar and PHEV cycle life aging of high-energy, lithium-ion cells containing blended spinel and layered-oxide cathodes
Belt J, Utgikar V, Bloom I |
| 10222 - 10227 |
LiCr(0.2)Ni(0.4)Mn(1.4)O(4) spinels exhibiting huge rate capability at 25 and 55 degrees C: Analysis of the effect of the particle size
Aklalouch M, Amarilla JM, Saadoune I, Rojo JM |
| 10228 - 10233 |
Structural, morphological and electrochemical properties of nanocrystalline V(2)O(5) thin films deposited by means of radiofrequency magnetron sputtering
Quinzeni I, Ferrari S, Quartarone E, Mustarelli P |
| 10234 - 10239 |
Synthesis of Co(2)SnO(4)@C core-shell nanostructures with reversible lithium storage
Qi Y, Du N, Zhang H, Wu P, Yang DR |
| 10240 - 10243 |
Carbon-coated SiO(2) nanoparticles as anode material for lithium ion batteries
Yao Y, Zhang JJ, Xue LG, Huang T, Yu AS |
| 10244 - 10248 |
Influence of order in stepwise electroless deposition on anode properties of thick-film electrodes consisting of Si particles coated with Ni and Cu
Usui H, Uchida N, Sakaguchi H |
| 10249 - 10253 |
Electrochemical performances of graphene nanosheets prepared through microwave radiation
Shanmugharaj AM, Choi WS, Lee CW, Ryu SH |
| 10254 - 10257 |
Silicon-coated carbon nanofiber hierarchical nanostructures for improved lithium-ion battery anodes
Simon GK, Maruyama B, Durstock MF, Burton DJ, Goswami T |
| 10258 - 10262 |
Morphology regulation and carbon coating of LiMnPO(4) cathode material for enhanced electrochemical performance
Wang F, Yang J, Gao PF, NuLi YN, Wang JL |
| 10263 - 10266 |
Preparation and electrochemical properties of polysulfide polypyrrole
Chao ZS, Lan Z, Yu JH |
| 10267 - 10279 |
Comparison of discretization methods applied to the single-particle model of lithium-ion batteries
Romero-Becerril A, Alvarez-Icaza L |
| 10280 - 10288 |
Microfibrillated cellulose as reinforcement for Li-ion battery polymer electrolytes with excellent mechanical stability
Chiappone A, Nair JR, Gerbaldi C, Jabbour L, Bongiovanni R, Zeno E, Beneventi D, Penazzi N |
| 10289 - 10296 |
Characterization of all-solid-state Li/LiPONB/TiOS microbatteries produced at the pilot scale
Fleutot B, Pecquenard B, Le Cras F, Delis B, Martinez H, Dupont L, Guy-Bouyssou D |
| 10297 - 10304 |
Optimal charge rates for a lithium ion cell
Rahimian SK, Rayman S, White RE |
| 10305 - 10313 |
Hybridization of electrochemical capacitors and rechargeable batteries: An experimental analysis of the different possible approaches utilizing activated carbon, Li(4)Ti(5)O(12) and LiMn(2)O(4)
Cericola D, Novak P, Wokaun A, Kotz R |
| 10314 - 10321 |
Prognostics of lithium-ion batteries based on Dempster-Shafer theory and the Bayesian Monte Carlo method
He W, Williard N, Osterman M, Pecht M |
| 10322 - 10327 |
Structural and thermal stabilities of layered Li(Ni(1/3)Co(1/3)Mn(1/3))O(2) materials in 18650 high power batteries
He YB, Ning F, Yang QH, Song QS, Li BH, Su FY, Du HD, Tang ZY, Kang FY |
| 10328 - 10335 |
Evaluation of commercial lithium-ion cells based on composite positive electrode for plug-in hybrid electric vehicle applications. Part I: Initial characterizations
Dubarry M, Truchot C, Cugnet M, Liaw BY, Gering K, Sazhin S, Jamison D, Michelbacher C |
| 10336 - 10343 |
Evaluation of commercial lithium-ion cells based on composite positive electrode for plug-in hybrid electric vehicle applications. Part II. Degradation mechanism under 2 C cycle aging
Dubarry M, Truchot C, Liaw BV, Gering K, Sazhin S, Jamison D, Michelbacher C |
| 10344 - 10350 |
Electrochemistry and safety of Li(4)Ti(5)O(12) and graphite anodes paired with LiMn(2)O(4) for hybrid electric vehicle Li-ion battery applications
Belharouak I, Koenig GM, Amine K |
| 10351 - 10358 |
The ability of battery second use strategies to impact plug-in electric vehicle prices and serve utility energy storage applications
Neubauer J, Pesaran A |
| 10359 - 10368 |
Design optimization of electric vehicle battery cooling plates for thermal performance
Jarrett A, Kim IY |
| 10369 - 10379 |
Optimal decentralized charging control algorithm for electrified vehicles connected to smart grid
Ahn CS, Li CT, Peng H |
| 10380 - 10386 |
A jump condition of PMP-based control for PHEVs
Kim N, Rousseau A, Lee D |
| 10387 - 10394 |
The impact of plug-in vehicles on greenhouse gas and criteria pollutants emissions in an urban air shed using a spatially and temporally resolved dispatch model
Razeghi G, Brown T, Samuelsen GS |
| 10395 - 10400 |
Differential pulse effects of solid electrolyte interface formation for improving performance on high-power lithium ion battery
Wang FM, Wang HY, Yu MH, Hsiao YJ, Tsai Y |
| 10401 - 10414 |
Optimal shifting of Photovoltaic and load fluctuations from fuel cell and electrolyzer to lead acid battery in a Photovoltaic/hydrogen standalone power system for improved performance and life time
Tesfahunegn SG, Ulleberg O, Vie PJS, Undeland TM |
| 10415 - 10423 |
Influence of measurement procedure on quality of impedance spectra on lead-acid batteries
Budde-Meiwes H, Kowal J, Sauer DU, Karden E |
| 10424 - 10429 |
A novel electrochemical approach on the effect of alloying elements on self-discharge and discharge delivered current density of Pb-Ca-Ag lead-acid battery plates
Benhangi PH, Nakhaie D, Moayed MH, Molazemi A |
| 10430 - 10441 |
Solar photovoltaic charging of high voltage nickel metal hydride batteries using DC power conversion
Kelly NA, Gibson TL |
| 10442 - 10454 |
Dynamic modeling of electrochemical systems using linear graph theory
Dao TS, McPhee J |
| 10455 - 10460 |
Performance of nitrogen- and sulfur-containing carbon material derived from thiourea and formaldehyde as electrochemical capacitor
Tsubota T, Takenaka K, Murakami N, Ohno T |
| 10461 - 10464 |
A novel synthesis of mesoporous carbon microspheres for supercapacitor electrodes
Xiong W, Liu MX, Gan LH, Lv YK, Li Y, Yang L, Xu ZJ, Hao ZX, Liu HL, Chen LW |
| 10465 - 10471 |
A high-performance three-dimensional micro supercapacitor based on self-supporting composite materials
Shen CW, Wang XH, Zhang WF, Kang FY |
| 10472 - 10478 |
Study on the electrochemical properties of cubic ordered mesoporous carbon for supercapacitors
Lang JW, Yan XB, Yuan XY, Yang J, Xue QJ |
| 10479 - 10483 |
Development of all-solid-state mediator-enhanced supercapacitors with polyvinylidene fluoride/lithium trifluoromethanesulfonate separators
Zhou JJ, Cai JS, Cai SR, Zhou XY, Mansour AN |
| 10484 - 10489 |
Aqueous dispersed conducting polyaniline nanofibers: Promising high specific capacity electrode materials for supercapacitor
Zhang HM, Zhao Q, Zhou SP, Liu NJ, Wang XH, Li J, Wang FS |
| 10490 - 10495 |
Effect of carbon types on the electrochemical properties of negative electrodes for Li-ion capacitors
Kim JH, Kim JS, Lim YG, Lee JG, Kim YJ |
| 10496 - 10501 |
Solvent-induced porosity control of carbon nanofiber webs for supercapacitor
Kim BH, Yang KS, Kim YA, Kim YJ, An B, Oshida K |
| 10502 - 10506 |
Low-temperature synthesis of Na(2)Mn(5)O(10) for supercapacitor applications
Liu S, Fan CZ, Zhang Y, Li CH, You XZ |
| 10507 - 10510 |
Utilization of (oxalato)borate-based organic electrolytes in activated carbon/graphite capacitors
Wang YX, Zheng C, Qi L, Yoshio M, Yoshizuka K, Wang HY |
| 10511 - 10517 |
Electrochemically-tuned luminescence of a [Ru(bpy)(2)(tatp)](2+)-sensitized TiO(2) anode and its applications to photo-stimulated guanine/H(2)O(2) fuel cells
Shao JY, Sun T, Ji SB, Li H, Lan S, Li WS |
| 10518 - 10525 |
Mesoporous F-doped ZnO prism arrays with significantly enhanced photovoltaic performance for dye-sensitized solar cells
Luo LJ, Tao W, Hu XY, Xiao T, Heng BJ, Huang W, Wang H, Han HW, Jiang QK, Wang JB, Tang YW |
| 10526 - 10531 |
The effect of a blocking layer on the photovoltaic performance in CdS quantum-dot-sensitized solar cells
Kim J, Choi H, Nahm C, Moon J, Kim C, Nam S, Jung DR, Park B |
| 10532 - 10537 |
High performance quasi-solid-state dye-sensitized solar cells based on poly(lactic acid-co-glycolic acid)
Kwon W, Rhee SW |
| 10538 - 10542 |
Precise modification of the interface between titanium dioxide and electrolyte of dye-sensitized solar cells with oxides deposited by thermal evaporation of metals and subsequent oxidation
Neo CY, Ouyang J |
