| 1 - 12 |
Influence of temperature and atmosphere on the strength and elastic modulus of solid oxide fuel cell anode supports
Ni DW, Charlas B, Kwok K, Molla TT, Hendriksen PV, Frandsen HL |
| 13 - 20 |
Effect of Cu doping on Ba0.5Sr0.5Fe1-xCuxO3-delta perovskites for solid oxide fuel cells: A first-principles study
Vazquez S, Suescun L, Faccio R |
| 21 - 28 |
Stress-strain relationships of LixSn alloys for lithium ion batteries
Gao X, Ma ZS, Jiang WJ, Zhang PP, Wang Y, Pan Y, Lu CS |
| 29 - 34 |
Exploration of cobalt phosphate as a potential catalyst for rechargeable aqueous sodium-air battery
Senthilkumar B, Khan Z, Park S, Seo I, Ko H, Kim Y |
| 35 - 41 |
Mesoporous Li1.2Mn0.54Ni0.13Co0.13O2 nanotubes for high-performance cathodes in Li-ion batteries
Ma DT, Li YL, Zhang PX, Cooper AJ, Abdelkader AM, Ren XZ, Deng LB |
| 42 - 48 |
Fabrication of free-standing aligned multiwalled carbon nanotube array for Li-ion batteries
Bulusheva LG, Arkhipov VE, Fedorovskaya EO, Zhang S, Kurenya AG, Kanygin MA, Asanov IP, Tsygankova AR, Chen XH, Song HH, Okotrub AV |
| 49 - 56 |
Silver nanowires as catalytic cathodes for stabilizing lithium-oxygen batteries
Kwak WJ, Jung HG, Lee SH, Park JB, Aurbach D, Sun YK |
| 57 - 67 |
A dynamic plug flow reactor model for a vanadium redox flow battery cell
Li YF, Skyllas-Kazacos M, Bao J |
| 68 - 80 |
Facile electrospinning preparation of phosphorus and nitrogen dual-doped cobalt-based carbon nanofibers as bifunctional electrocatalyst
Wang Z, Zuo PJ, Fan LQ, Han JN, Xiong YP, Yin GP |
| 81 - 90 |
A comparative investigation of metal-support interactions on the catalytic activity of Pt nanoparticles for ethanol oxidation in alkaline medium
Godoi DRM, Villullas HM, Zhu FC, Jiang YX, Sun SG, Guo JS, Sun LL, Chen RR |
| 91 - 102 |
A review of high-temperature polymer electrolyte membrane fuel-cell (HT-PEMFC)-based auxiliary power units for diesel-powered road vehicles
Liu YF, Lehnert W, Janssen H, Samsun RC, Stolten D |
| 103 - 110 |
NaxLi0.7-xNi1-yMnyO2 as a new positive electrode material for lithium-ion batteries
Chiba K, Taguchi N, Shikano M, Sakaebe H |
| 111 - 120 |
Facile fabrication of highly efficient carbon nanotube thin film replacing CuS counter electrode with enhanced photovoltaic performance in quantum dot-sensitized solar cells
Gopi CVVM, Venkata-Haritha M, Kim SK, Kim HJ |
| 121 - 129 |
High-performance symmetric supercapacitor based on manganese oxyhydroxide nanosheets on carbon cloth as binder-free electrodes
Zhang YD, Hu ZA, An YF, Guo BS, An N, Liang YR, Wu HY |
| 130 - 136 |
Fine control of perovskite-layered morphology and composition via sequential deposition crystallization process towards improved perovskite solar cells
Luo Y, Meng FL, Zhao EF, Zheng YZ, Zhou YL, Tao X |
| 137 - 143 |
Porous Fe-N-x/C hybrid derived from bi-metal organic frameworks as high efficient electrocatalyst for oxygen reduction reaction
Wu YJ, Zhao SL, Zhao K, Tu TX, Zheng JZ, Chen J, Zhou HF, Chen DJ, Li SX |
| 144 - 152 |
Electrochemically reduced graphene oxide/carbon nanotubes composites as binder-free supercapacitor electrodes
Yang Q, Pang SK, Yung KC |
| 153 - 158 |
Towards developing a backing layer for proton exchange membrane electrolyzers
Lettenmeier P, Kolb S, Burggraf F, Gago AS, Friedrich KA |
| 159 - 166 |
Improvement of irreversible behavior of SiO anodes for lithium ion batteries by a solid state reaction at high temperature
Yom JH, Hwang SW, Cho SM, Yoon WY |
| 167 - 174 |
Perfluoro anion based binary and ternary ionic liquids as electrolytes for dye-sensitized solar cells
Lin HH, Peng JD, Suryanarayanan V, Velayutham D, Ho KC |
| 175 - 181 |
A distributed real-time model of degradation in a solid oxide fuel cell, part I: Model characterization
Zaccaria V, Tucker D, Traverso A |
| 182 - 187 |
Synthesis of transport layers with controlled anisotropy and application thereof to study proton exchange membrane fuel cell performance
Todd D, Merida W |
| 188 - 194 |
A monolayer graphene - Nafion sandwich membrane for direct methanol fuel cells
Yan XH, Wu RZ, Xu JB, Luo ZT, Zhao TS |
