| 1 - 9 |
Single-crystalline nanotubes of spinel lithium nickel manganese oxide with lithium titanate anode for high-rate lithium ion batteries
Ding YL, Goh BM, Zhang H, Loh KP, Lu L |
| 10 - 16 |
Surfactant-assisted nanocrystal filling of TiO2 nanotube arrays for dye-sensitized solar cells with improved performance
Yang ZB, Pan DY, Xi C, Li JH, Shi JW, Xu F, Ma ZQ |
| 17 - 24 |
Performance degradation of a direct borohydride fuel cell
Li ZP, Liu ZX, Qin HY, Zhu KN, Liu BH |
| 25 - 32 |
Effect of amorphous FePO4 coating on structure and electrochemical performance of Li1.2Ni0.13Co0.13Mn0.54O2 as cathode material for Li-ion batteries
Wang ZY, Liu EZ, He CN, Shi CS, Li JJ, Zhao NQ |
| 33 - 38 |
Synthesis and electrochemical performance of LiVO3 cathode materials for lithium ion batteries
Jian XM, Tu JP, Qiao YQ, Lu Y, Wang XL, Gu CD |
| 39 - 46 |
Beneficial influence of succinic anhydride as electrolyte additive on the self-discharge of 5 V LiNi0.4Mn1.6O4 cathodes
Tarnopolskiy V, Kalhoff J, Nadherna M, Bresser D, Picard L, Fabre F, Rey M, Passerini S |
| 47 - 53 |
Composition optimization of multilayered chromium-nitride-carbon film on 316L stainless steel as bipolar plates for proton exchange membrane fuel cells
Yi PY, Peng LF, Zhou T, Huang JQ, Lai XM |
| 54 - 60 |
In-situ controllable synthesis and performance investigation of carbon-coated monoclinic and hexagonal LiMnBO3 composites as cathode materials in lithium-ion batteries
Li SL, Xu LQ, Li GD, Wang M, Zhai YJ |
| 61 - 67 |
Lithium diffusion in sputter-deposited lithium iron phosphate thin-films
Kohler M, Berkemeier F, Gallasch T, Schmitz G |
| 68 - 79 |
Sr-rich chromium ferrites as symmetrical solid oxide fuel cell electrodes
Chen M, Paulson S, Thangadurai V, Birss V |
| 80 - 86 |
Study on microstructure and electrochemical performance of the MlNi(3.55)Co(0.75-x)Mn(0.4)Al(0.3)(Cu0.75P0.25)(x) (x=0-0.5) composite alloys
Zhang B, Wu WY, Bian X, Tu GF |
| 87 - 94 |
Influence of the carbonaceous conductive network on the electrochemical performance of ZnFe2O4 nanoparticles
Mueller F, Bresser D, Paillard E, Winter M, Passerini S |
| 95 - 102 |
Study of the two-step W/WO3 solar to fuel conversion cycle for syngas production
Milshtein JD, Gratz E, Basu SN, Gopalan S, Pal UB |
| 103 - 111 |
Supercapacitance behavior of porous oxide layer grown on 302 type stainless steel substrate
Sarma B, Smith YR, Jurovitzki AL, Ray RS, Mohanty SK, Misra M |
| 112 - 117 |
Investigation of nano-fibrous selenium and its polypyrrole and graphene composite as cathode material for rechargeable Li-batteries
Kundu D, Krumeich F, Nesper R |
| 118 - 125 |
Li4Ti5O12 prepared by a modified citric acid sol-gel method for lithium-ion battery
Zhang CM, Zhang YY, Wang J, Wang D, He DN, Xia YY |
| 126 - 137 |
Validation of a two-phase multidimensional polymer electrolyte membrane fuel cell computational model using current distribution measurements
Carnes B, Spernjak D, Luo G, Hao L, Chen KS, Wang CY, Mukundan R, Borup RL |
| 138 - 144 |
In situ Raman study on the structural degradation of a graphite composite negative-electrode and the influence of the salt in the electrolyte solution
Nakagawa H, Domi Y, Doi T, Ochida M, Tsubouchi S, Yamanaka T, Abe T, Ogumi Z |
| 145 - 150 |
Development of a novel and safer energy storage system using a graphite cathode and Nb2O5 anode
Park G, Gunawardhana N, Lee C, Lee SM, Lee YS, Yoshio M |
| 151 - 157 |
Impact of delithiated Li0FePO4 on the decomposition of LiPF6-based electrolyte studied by accelerating rate calorimetry
Roder P, Baba N, Friedrich KA, Wiemhofer HD |
| 158 - 162 |
Effect of electric potential on hydrogen adsorption over activated carbon separated by dielectric TiO2 nanoparticles
Zhang Z, Hwang JY, Wen CY, Li X |
| 163 - 168 |
In-situ observation of inhomogeneous degradation in large format Li-ion cells by neutron diffraction
Cai L, An K, Feng ZL, Liang CD, Harris SJ |
| 169 - 174 |
Simply AlF3-treated Li4Ti5O12 composite anode materials for stable and ultrahigh power lithium-ion batteries
Xu W, Chen XL, Wang W, Choi DW, Ding F, Zhang JM, Nie ZM, Choi YJ, Zhang JG, Yang ZG |
| 175 - 180 |
Electrochemical investigation of carbonate-based electrolytes for high voltage lithium-ion cells
Hu LB, Zhang ZC, Amine K |
| 181 - 187 |
On the role of polysulfides for a stable solid electrolyte interphase on the lithium anode cycled in lithium-sulfur batteries
Xiong SZ, Xie K, Diao Y, Hong XB |
| 188 - 191 |
Facile preparation of porous FeF3 nanospheres as cathode materials for rechargeable lithium-ion batteries
Chu QX, Xing ZC, Tian JQ, Ren XB, Asiri AM, Al-Youbi AO, Alamry KA, Sun XP |
| 192 - 199 |
Effect of porous interlayer on the long-term stability of (La0.8Sr0.2)(0.97)MnO3 cathode for solid oxide fuel cells
Yang J, Muroyama H, Matsui T, Eguchi K |
| 200 - 206 |
Development of low-temperature sintered Mn-Co spinel coatings on Fe-Cr ferritic alloys for solid oxide fuel cell interconnect applications
Ou DR, Cheng MJ, Wang XL |
| 207 - 214 |
N-Methyl-N-propylpiperidinium bis(trifluoromethanesulfonyl)imide-based organic electrolyte for high performance lithium-sulfur batteries
Wang LN, Byon HR |
| 215 - 223 |
Copper nanocrystal modified activated carbon for supercapacitors with enhanced volumetric energy and power density
Zhang LL, Candelaria SL, Tian JJ, Li YW, Huang YX, Cao GZ |
| 224 - 229 |
Carbon-rich SiCN ceramics as high capacity/high stability anode material for lithium-ion batteries
Reinold LM, Graczyk-Zajac M, Gao Y, Mera G, Riedel R |
| 230 - 237 |
Pseudo-capacitive profile vs. Li-intercalation in Nano-LiFePO4
Wang YG, Zhao D, Che RC, Xia YY |
| 238 - 249 |
Recent progress in doped carbon nanomaterials as effective cathode catalysts for fuel cell oxygen reduction reaction
Yang Z, Nie HG, Chen X, Chen XH, Huang SM |
| 250 - 258 |
Different oxygen redox participation for bulk and surface: A possible global explanation for the cycling mechanism of Li1.20Mn0.54CO0.13Ni0.13O2
Koga H, Croguennec L, Menetrier M, Mannessiez P, Weill F, Delmas C |
| 259 - 264 |
A polyoxometalate flow battery
Pratt HD, Hudak NS, Fang XK, Anderson TM |
| 265 - 275 |
Lithium secondary batteries working at very high temperature: Capacity fade and understanding of aging mechanisms
Bodenes L, Naturel R, Martinez H, Dedryvere R, Menetrier M, Croguennec L, Peres JP, Tessier C, Fischer F |
| 276 - 284 |
Physical and electrochemical properties of LiCoPO4/C nanocomposites prepared by a combination of emulsion drip combustion and wet ball-milling followed by heat treatment
Tussupbayev R, Taniguchi I |
| 285 - 292 |
Carbon materials from high ash biochar for supercapacitor and improvement of capacitance with HNO3 surface oxidation
Jin H, Wang XM, Gu ZR, Polin J |
| 293 - 310 |
Developments in electrode materials and electrolytes for aluminium-air batteries
Egan DR, de Leon CP, Wood RJK, Jones RL, Stokes KR, Walsh FC |
| 311 - 320 |
Oxygen reduction activity of binary PtMn/C, ternary PtMnX/C (X = Fe, Co, Ni, Cu, Mo and, Sn) and quaternary PtMnCuX/C (X = Fe, Co, Ni, and Sn) and PtMnMoX/C (X = Fe, Co, Ni, Cu and Sn) alloy catalysts
Ammam M, Easton EB |
| 321 - 340 |
A computationally efficient hybrid 3D analytic-numerical approach for modelling species transport in a proton exchange membrane fuel cell
Tavcar G, Katrasnik T |
| 341 - 349 |
Effects of temperature and pressure on the performance of a solid oxide fuel cell running on steam reformate of kerosene
Chick LA, Marina OA, Coyle CA, Thomsen EC |
| 350 - 356 |
Co-benefits of large scale plug-in hybrid electric vehicle and solar PV deployment
Denholm P, Kuss M, Margolis RM |
| 357 - 364 |
Sensitivity of plug-in hybrid electric vehicle economics to drive patterns, electric range, energy management, and charge strategies
Neubauer J, Brooker A, Wood E |
