| 5797 - 5802 |
Stability and performance of infiltrated La0.8Sr0.2CoxFe1-xO3 electrodes with and without Sm0.2Ce0.8O1.9 interlayers
Adijanto L, Kungas R, Bidrawn F, Gorte RJ, Vohs JM |
| 5803 - 5810 |
Hybrid proton conducting membranes based on sulfonated cross-linked polysiloxane network for direct methanol fuel cell
Zhu J, Zhang G, Shao K, Zhao CJ, Li HT, Zhang Y, Han MM, Lin HD, Li M, Na H |
| 5811 - 5816 |
Investigations of a platinum-ruthenium/carbon nanotube catalyst formed by a two-step spontaneous deposition method
Chang WC, Nguyen MT |
| 5817 - 5822 |
High performance polymer chemical hydrogel-based electrode binder materials for direct borohydride fuel cells
Choudhury NA, Ma J, Sahai Y, Buchheit RG |
| 5823 - 5828 |
Novel nanocrystalline PdNi alloy catalyst for methanol and ethanol electro-oxidation in alkaline media
Qi Z, Geng HR, Wang XG, Zhao CC, Ji H, Zhang C, Xu JL, Zhang ZH |
| 5829 - 5834 |
Flame synthesis of carbon nanostructures on stainless steel anodes for use in microbial fuel cells
Lamp JL, Guest JS, Naha S, Radavich KA, Love NG, Ellis MW, Puri IK |
| 5835 - 5839 |
Synthesis and performance of Sr1.5LaxMnO4 as cathode materials for intermediate temperature solid oxide fuel cell
Sun LP, Li Q, Huo LH, Zhao H, Zhang GY, Lin N, Viricelle JP, Pijolat C |
| 5840 - 5843 |
A stable La1.95Ca0.05Ce2O7-delta as the electrolyte for intermediate-temperature solid oxide fuel cells
Tao ZT, Bi L, Fang SM, Liu W |
| 5844 - 5848 |
Preparation of PtNi hollow nanospheres for the electrocatalytic oxidation of methanol
Zhou XW, Zhang RH, Zhou ZY, Sun SG |
| 5849 - 5852 |
Nafion-stabilized Ir85Se15/C catalyst for oxygen reduction reaction in proton exchange membrane fuel cells
Xu T, Zhang HM, Zhang YN, Zhong HX, Jin H, Tang YF |
| 5853 - 5857 |
Performance of Au and AuAg nanoparticles supported on Vulcan in a glucose laminar membraneless microfuel cell
Cuevas-Muniz FM, Guerra-Balcazar M, Castaneda F, Ledesma-Garcia J, Arriaga LG |
| 5858 - 5862 |
Investigation of amorphous CoB alloy as the anode catalyst for a direct borohydride fuel cell
Li S, Yang XD, Zhu HY, Chen YZ, Liu YN |
| 5863 - 5866 |
Recycled tire crumb rubber anodes for sustainable power production in microbial fuel cells
Wang HM, Davidson M, Zuo Y, Ren ZY |
| 5867 - 5872 |
Fuel cell/battery passive hybrid power source for electric powertrains
Bernard J, Hofer M, Hannesen U, Toth A, Tsukada A, Buchi FN, Dietrich P |
| 5873 - 5880 |
Constrained model predictive control of a solid oxide fuel cell based on genetic optimization
Li YG, Shen J, Lu JH |
| 5881 - 5888 |
Proton exchange membrane fuel cell system diagnosis based on the signed directed graph method
Hua JF, Lu LG, Ouyang MG, Li JQ, Xu LF |
| 5889 - 5896 |
Interaction of sealing material mica with interconnect steel for solid oxide fuel cells application at 600 degrees C
Bram M, Niewolak L, Shah N, Sebold D, Buchkremer HP |
| 5897 - 5902 |
Design and fabrication of light weight current collectors for direct methanol fuel cells using the micro-electro mechanical system technique
Sung MF, Kuan YD, Chen BX, Lee SM |
| 5903 - 5912 |
Application of a detailed dimensional solid oxide fuel cell model in integrated gasification fuel cell system design and analysis
Li M, Brouwer J, Rao AD, Samuelsen GS |
| 5913 - 5917 |
A 4-cell miniature direct formic acid fuel cell stack with independent fuel reservoir: Design and performance investigation
Hong P, Zhong YL, Liao SJ, Zeng JH, Lu XY, Chen W |
| 5918 - 5921 |
Effect of gas diffusion layer properties on the time of breakthrough
Shahraeeni M, Hoorfar M |
| 5922 - 5927 |
Characterization and performance of UNS S63019 (21-4N) as bipolar plate material in a simulated polymer electrolyte membrane fuel cell environment
Howell AG, Wang HL, Cowley SW, Turner JA |
| 5928 - 5935 |
Steam reforming of commercial ultra-low sulphur diesel
Boon J, van Dijk E, de Munck S, van den Brink R |
| 5936 - 5944 |
Modified synthesis of [Fe/LiF/C] nanocomposite, and its application as conversion cathode material in lithium batteries
Prakash R, Wall C, Mishra AK, Kubel C, Ghafari M, Hahn H, Fichtner M |
| 5945 - 5950 |
Silicon-oxycarbide based thin film anodes for lithium ion batteries
Shen J, Raj R |
| 5951 - 5959 |
Understanding the sucrose-assisted combustion method: Effects of the atmosphere and fuel amount on the synthesis and electrochemical performances of LiNi0.5Mn1.5O4 spinel
Amarilla JM, Rojas RM, Rojo JM |
| 5960 - 5965 |
Cresyl diphenyl phosphate effect on the thermal stabilities and electrochemical performances of electrodes in lithium ion battery
Wang QS, Ping P, Sun JH, Chen CH |
| 5966 - 5969 |
Active lithium replenishment to extend the life of a cell employing carbon and iron phosphate electrodes
Wang J, Soukiazian S, Verbrugge M, Tataria H, Coates D, Hall D, Liu P |
| 5970 - 5984 |
A model for degradation of electrochemical devices based on linear non-equilibrium thermodynamics and its application to lithium ion batteries
Virkar AV |
| 5985 - 5989 |
Mathematical modeling of a lithium ion battery with thermal effects in COMSOL Inc. Multiphysics (MP) software
Cai L, White RE |
| 5990 - 5996 |
Enhanced capacitance and rate capability of graphene/polypyrrole composite as electrode material for supercapacitors
Zhang DC, Zhang X, Chen Y, Yu P, Wang CH, Ma YW |
| 5997 - 6002 |
Effect of NaI/I-2 mediators on properties of PEO/LiAlO2 based all-solid-state supercapacitors
Yin YJ, Zhou JJ, Mansour AN, Zhou XY |
| 6003 - 6006 |
KOH modified graphene nanosheets for supercapacitor electrodes
Li YM, van Zijll M, Chiang S, Pan N |
