| 3689 - 3689 |
International Lead Award Acceptance Speech
Pavlov D |
| 3690 - 3704 |
Computational design and optimization of fuel cells and fuel cell systems: A review
Secanell M, Wishart J, Dobson P |
| 3705 - 3712 |
Thermal stability, oxygen non-stoichiometry, electrical conductivity and diffusion characteristics of PrNi0.4Fe0.6O3-delta, a potential cathode material for IT-SOFCs
Rebello J, Vashook V, Trots D, Guth U |
| 3713 - 3721 |
Catalytic activity of Ni-YSZ anodes in a single-chamber solid oxide fuel cell reactor
Savoie S, Napporn TW, Morel B, Meunier M, Roberge R |
| 3722 - 3728 |
Impact of SO2 poisoning of platinum nanoparticles modified glassy carbon electrode on oxygen reduction
Awad MI, Saleh MM, Ohsaka T |
| 3729 - 3735 |
Double-perovskites YBaCo2-chi Fe chi O5+delta cathodes for intermediate-temperature solid oxide fuel cells
Xue JF, Shen Y, He TM |
| 3736 - 3742 |
Application of complementary analytical tools to support interpretation of polymer-electrolyte-membrane fuel cell impedance data
Roy SK, Hagelin-Weaver H, Orazem ME |
| 3743 - 3749 |
Effects of operating conditions on durability of polymer electrolyte membrane fuel cell Pt cathode catalyst layer
Ohyagi S, Matsuda T, Iseki Y, Sasaki T, Kaito C |
| 3750 - 3756 |
Prediction and analysis of the cathode catalyst layer performance of proton exchange membrane fuel cells using artificial neural network and statistical methods
Khajeh-Hosseini-Dalasm N, Ahadian S, Fushinobu K, Okazaki K, Kawazoe Y |
| 3757 - 3760 |
A thermophilic microbial fuel cell design
Carver SM, Vuoriranta P, Tuovinen OH |
| 3761 - 3765 |
Solid oxide fuel cell with compositionally graded cathode functional layer deposited by pressure assisted dual-suspension spraying
McCoppin J, Young D, Reitz T, Maleszewski A, Mukhopadhyay S |
| 3766 - 3772 |
Development of a novel pseudo bipolar piezoelectric proton exchange membrane fuel cell with nozzle and diffuser
Ma HK, Wang JS, Chang YT |
| 3773 - 3780 |
Optimization of polytetrafluoroethylene content in cathode gas diffusion layer by the evaluation of compression effect on the performance of a proton exchange membrane fuel cell
Chang HM, Lin CW, Chang MH, Shiu HR, Chang WC, Tsau FH |
| 3781 - 3789 |
Transient behavior analysis of a new designed passive direct methanol fuel cell fed with highly concentrated methanol
Cai WW, Li ST, Feng LG, Zhang J, Song DT, Xing W, Liu CP |
| 3790 - 3802 |
High-fidelity stack and system modeling for tubular solid oxide fuel cell system design and thermal management
Kattke KJ, Braun RJ, Colclasure AM, Goldin G |
| 3803 - 3809 |
Effect of cation contamination and hydrated pressure loading on the mechanical properties of proton exchange membranes
Jia RL, Han BH, Levi K, Hasegawa T, Ye JP, Dauskardt RH |
| 3810 - 3823 |
Modeling of the Ballard-Mark-V proton exchange membrane fuel cell with power converters for applications in autonomous underwater vehicles
Lee CH, Yang JT |
| 3824 - 3835 |
Performance study of a solid oxide fuel cell and gas turbine hybrid system designed for methane operating with non-designed fuels
Li Y, Weng YW |
| 3836 - 3840 |
Optical humidity sensing, proton-conducting sol-gel glass monolith
Li HB, Jin DL, Yu QC, Tu HY |
| 3841 - 3845 |
Performance of a novel La(Sr)MnO3-Pd composite current collector for solid oxide fuel cell cathode
Wang CA, Xin XS, Xu YJ, Ye XF, Yu LJ, Wang SR, Wen TL |
| 3846 - 3850 |
Prediction of the effective coefficient of thermal expansion of heterogeneous media using two-point correlation functions
Milhans J, Li DS, Khaleel M, Sun X, Garmestani H |
| 3851 - 3854 |
Use of mechanical tests to predict durability of polymer fuel cell membranes under humidity cycling
Aindow TT, O'Neill J |
| 3855 - 3862 |
A new Gd-promoted nickel catalyst for methane conversion to syngas and as an anode functional layer in a solid oxide fuel cell
Wang W, Su C, Ran R, Shao ZP |
| 3863 - 3867 |
A composite of borohydride and super absorbent polymer for hydrogen generation
Li ZP, Liu BH, Liu FF, Xu D |
| 3868 - 3873 |
Electrodeposited porous-microspheres Li-Si films as negative electrodes in lithium-ion batteries
Lv RG, Yang J, Wang JL, NuLi YN |
| 3874 - 3880 |
Favorable combination of positive and negative electrode materials with glyme-Li salt complex electrolytes in lithium ion batteries
Orita A, Kamijima K, Yoshida M, Dokko K, Watanabe M |
| 3881 - 3886 |
Overcharge protection effect and reaction mechanism of cyclohexylbenzene for lithium ion batteries
Iwayasu N, Honbou H, Horiba T |
| 3887 - 3893 |
Facile synthesis of hierarchically structured Fe3O4/carbon micro-flowers and their application to lithium-ion battery anodes
Jin SL, Deng HG, Long DH, Liu XJ, Zhan LA, Liang XY, Qiao WM, Ling LC |
| 3894 - 3899 |
Investigation on the charging process of Li2O2-based air electrodes in Li-O-2 batteries with organic carbonate electrolytes
Xu W, Viswanathan VV, Wang DY, Towne SA, Xiao J, Nie ZM, Hu DH, Zhang JG |
| 3900 - 3905 |
Influence of the binder types on the electrochemical characteristics of natural graphite electrode in room-temperature ionic liquid
Ui K, Towada J, Agatsuma S, Kumagai N, Yamamoto K, Haruyama H, Takeuchi K, Koura N |
| 3906 - 3910 |
A non-aqueous electrolyte for the operation of Li/air battery in ambient environment
Zhang SS, Xu K, Read J |
| 3911 - 3915 |
Application of electrolyte using novel ionic liquid to Si thick film anode of Li-ion battery
Usui H, Yamamoto Y, Yoshiyama K, Itoh T, Sakaguchi H |
| 3916 - 3920 |
Preparation of Co-Sn alloy film as negative electrode for lithium secondary batteries by pulse electrodeposition method
Ui K, Kikuchi S, Jimba Y, Kumagai N |
| 3921 - 3932 |
Online estimation of internal resistance and open-circuit voltage of lithium-ion batteries in electric vehicles
Chiang YH, Sean WY, Ke JC |
| 3933 - 3941 |
A nonlinear viscoelastic-viscoplastic constitutive model for ionomer membranes in polymer electrolyte membrane fuel cells
Yoon W, Huang XY |
| 3942 - 3948 |
Cycle-life model for graphite-LiFePO4 cells
Wang J, Liu P, Hicks-Garner J, Sherman E, Soukiazian S, Verbrugge M, Tataria H, Musser J, Finamore P |
| 3949 - 3954 |
Safe and fast-charging Li-ion battery with long shelf life for power applications
Zaghib K, Dontigny M, Guerfi A, Charest P, Rodrigues I, Mauger A, Julien CM |
| 3955 - 3961 |
First-principles modelling of lithium iron oxides as battery cathode materials
Catti M, Montero-Campillo M |
| 3962 - 3971 |
Development and performance characterization of an electric ground vehicle with independently actuated in-wheel motors
Wang RR, Chen Y, Feng DW, Huang XY, Wang JM |
| 3972 - 3980 |
Using vehicle-to-grid technology for frequency regulation and peak-load reduction
White CD, Zhang KM |
| 3981 - 3987 |
New accelerated charge methods using early destratification applied on flooded lead acid batteries
Mamadou K, Nguyen TMP, Lemaire-Potteau E, Glaize C, Alzieu J |
| 3988 - 3992 |
Study of the influence of carbon on the negative lead-acid battery electrodes
Baca P, Micka K, Krivik P, Tonar K, Toser P |
| 3993 - 4002 |
Lead-acid batteries in micro-hybrid vehicles
Albers J, Meissner E, Shirazi S |
| 4003 - 4011 |
Vanadium solid-salt battery: Solid state with two redox couples
Yamamura T, Wu XW, Ohta S, Shirasaki K, Sakuraba H, Satoh I, Shikama T |
| 4012 - 4018 |
New molten salt systems for high temperature molten salt batteries: Ternary and quaternary molten salt systems based on LiF-LiCl, LiF-LiBr, and LiCl-LiBr
Fujiwara S, Inaba M, Tasaka A |
| 4019 - 4025 |
Preparation of silver-modified La0.6Ca0.4CoO3 binary electrocatalyst for bi-functional air electrodes in alkaline medium
Zhuang SX, Huang KL, Huang CH, Huang HX, Liu SQ, Fan M |
| 4026 - 4032 |
Numerical study of thermoelectric power generation for an helicopter conical nozzle
Kousksou T, Bedecarrats JP, Champier D, Pignolet P, Brillet C |
| 4033 - 4043 |
A new method for dynamic performance improvement of a hybrid power system by coordination of converter's controller
Nayeripour M, Hoseintabar M, Niknam T |
| 4044 - 4053 |
Tailoring of RuO2 nanoparticles by microwave assisted "Instant method" for energy storage applications
Devadas A, Baranton S, Napporn TW, Coutanceau C |
| 4054 - 4060 |
Seasonal energy storage system based on hydrogen for self sufficient living
Bielmann M, Vogt UF, Zimmermann M, Zuttel A |
| 4061 - 4066 |
State-of-charge prediction of batteries and battery-supercapacitor hybrids using artificial neural networks
Weigert T, Tian Q, Lian K |
| 4067 - 4071 |
Inner pressure characterization of a sealed nickel-metal hydride cell
Cuscueta DJ, Salva HR, Ghilarducci AA |
| 4072 - 4079 |
Electrical double layer capacitors with sucrose derived carbon electrodes in ionic liquid electrolytes
Wei L, Yushin G |
| 4080 - 4087 |
Concentrated NaClO4 aqueous solutions as promising electrolytes for electric double-layer capacitors
Yin JA, Zheng C, Qi L, Wang HY |
| 4088 - 4094 |
Synthesis of mesoporous polythiophene/MnO2 nanocomposite and its enhanced pseudocapacitive properties
Lu Q, Zhou YK |
| 4095 - 4101 |
Dual functions of activated carbon in a positive electrode for MnO2-based hybrid supercapacitor
Gao PC, Lu AH, Li WC |
| 4102 - 4108 |
Graphene-conducting polymer nanocomposite as novel electrode for supercapacitors
Gomez H, Ram MK, Alvi F, Villalba P, Stefanakos E, Kumar A |
| 4109 - 4116 |
Physical and electrochemical characteristics of supercapacitors based on carbide derived carbon electrodes in aqueous electrolytes
Eskusson J, Janes A, Kikas A, Matisen L, Lust E |
| 4117 - 4122 |
Performance and stability of electrochemical capacitor based on anthraquinone modified activated carbon
Pognon G, Brousse T, Demarconnay L, Belanger D |
| 4123 - 4127 |
Exaggerated capacitance using electrochemically active nickel foam as current collector in electrochemical measurement
Xing W, Qiao SZ, Wu XZ, Gao XL, Zhou J, Zhuo SP, Hartono SB, Hulicova-Jurcakova D |
| 4128 - 4135 |
Modeling and characterization of supercapacitors for wireless sensor network applications
Zhang Y, Yang HZ |
| 4136 - 4142 |
Composite LiFePO4/AC high rate performance electrodes for Li-ion capacitors
Bockenfeld N, Kuhnel RS, Passerini S, Winter M, Balducci A |
| 4143 - 4151 |
Cubic titanium dioxide photoanode for dye-sensitized solar cells
Chae J, Kang M |
| 4152 - 4161 |
Low band gap dyes based on 2-styryl-5-phenylazo-pyrrole: Synthesis and application for efficient dye-sensitized solar cells
Mikroyannidis JA, Tsagkournos DV, Balraju P, Sharma GD |
| 4162 - 4172 |
Elucidation of electrochemical properties of electrolyte-impregnated micro-porous ceramic films as framework supports in dye-sensitized solar cells
Chen HS, Lue SJ, Tung YL, Cheng KW, Huang FY, Ho KC |
