| 1 - 6 |
High performance, coking-resistant and sulfur-tolerant anode for solid oxide fuel cell
Wang WY, Zhu CL, Xie K, Gan LZ |
| 7 - 17 |
A primed current collector for high performance carbon-coated LiFePO4 electrodes with no carbon additive
Busson C, Blin MA, Guichard P, Soudan P, Crosnier O, Guyomard D, Lestriez B |
| 18 - 25 |
Alginic acid-derived mesoporous carbonaceous materials (Starbon (R)) as negative electrodes for lithium ion batteries: Importance of porosity and electronic conductivity
Kim S, De Bruyn M, Alauzun JG, Louvain N, Brun N, Macquarrie DJ, Stievano L, Boury B, Mutin PH, Monconduit L |
| 26 - 34 |
Effect of the redox reactivity of vanadium ions enhanced by phosphorylethanolamine based catalyst on the performance of vanadium redox flow battery
Noh C, Kwon BW, Chung Y, Kwon Y |
| 35 - 41 |
A highly selective proton exchange membrane with highly ordered, vertically aligned, and subnanosized 1D channels for redox flow batteries
Yan XH, Zhou XL, Zhao TS, Jiang HR, Zeng L |
| 42 - 49 |
Two-step etching fabrication of tunable ternary rhombic dodecahedral nanoframes for enhanced oxygen reduction electrocatalysis
Huang L, Jiang Z, Gong WH, Wang Z, Shen PK |
| 50 - 62 |
Mn substitution controlled Li-diffusion in single crystalline nanotubular LiFePO4 high rate-capability cathodes: Experimental and theoretical studies
Budumuru AK, Viji M, Jena A, Nanda BRK, Sudakar C |
| 63 - 69 |
A proof-of-concept graphite anode with a lithium dendrite suppressing polymer coating
Luo J, Wu CE, Su LY, Huang SS, Fang CC, Wu YS, Chou J, Wu NL |
| 70 - 80 |
Stable cycling of NaFePO4 cathodes in high salt concentration ionic liquid electrolytes
Hilder M, Howlett PC, Saurel D, Anne H, Casas-Cabanas M, Armand M, Rojo T, MacFarlane DR, Forsyth M |
| 81 - 87 |
Enhanced electrochemical performance of metal-supported solid oxide fuel cells via an inner coating of Gd0.1Ce0.9O2.delta nanosol in the porous NiFe-metal support
Choi HJ, Kim TW, Na YH, Seo DW, Woo SK, Huh JY, Kim SD |
| 88 - 95 |
A new experimental method to estimate the leakage current in the solid oxide fuel cell with a mixed ionic and electronic conducting electrolyte
Shen SL, Wang ZX, Liu Y, Zhang Q, Zheng KQ |
| 96 - 101 |
Impact of intermittent polarization on electrode-respiring Geobacter sulfurreducens biofilms
Guo F, Babauta JT, Beyenal H |
| 102 - 109 |
Glycinamide modified polyacrylic acid as high-performance binder for silicon anodes in lithium-ion batteries
Li JJ, Zhang GZ, Yang Y, Yao DH, Lei ZW, Li S, Deng YH, Wang CY |
| 110 - 117 |
Enhanced cycle stability of Na0.9Ni0.45Mn0.55O2 through tailoring O3/P2 hybrid structures for sodium-ion batteries
Chen J, Li LJ, Wu L, Yao Q, Yang HP, Liu ZS, Xia LF, Chen ZY, Duan JF, Zhong SK |
| 118 - 127 |
From rotating disk electrode to single cell: Exploration of PtNi/C octahedral nanocrystal as practical proton exchange membrane fuel cell cathode catalyst
Wang J, Li B, Gao X, Yang DJ, Lv H, Xiao QF, Kaer SK, Zhang CM |
| 128 - 140 |
Solid-state gel polymer electrolytes based on ionic liquids containing imidazolium cations and tetrafluoroborate anions for electrochemical double layer capacitors: Influence of cations size and viscosity of ionic liquids
Pal P, Ghosh A |
| 141 - 150 |
Fast-cure ionogel electrolytes with improved ion transport kinetics at room temperature
Janani R, Mader K, Roberts AJ, Farmilo N, Sammon C |
| 151 - 166 |
Dynamic programming for New Energy Vehicles based on their work modes part I: Electric Vehicles and Hybrid Electric Vehicles
Zhou W, Yang L, Cai YS, Ying TX |
| 167 - 175 |
Interpenetrated 3D porous silicon as high stable anode material for Li-Ion battery
Liu YX, Qin LJ, Liu F, Fan YM, Ruan JJ, Zhang SJ |
| 176 - 184 |
Ionic liquid based nanofluid electrolytes with higher lithium salt concentration for high-efficiency, safer, lithium metal batteries
Bose P, Deb D, Bhattacharya S |
| 185 - 193 |
Non-invasive investigation of predominant processes in the impedance spectra of high energy lithium-ion batteries with Nickel-Cobalt-Aluminum cathodes
Sabet PS, Stahl G, Sauer DU |
