| 1 - 6 |
High performance plastic lithium-ion battery cells for hybrid vehicles
Lackner AM, Sherman E, Braatz PO, Margerum JD |
| 7 - 12 |
Reconsideration of SEI stability: reversible lithium intercalation into graphite electrodes in trans-2,3-butylene carbonate
Chung GC |
| 13 - 23 |
Analysis of the interface between lithium and organic electrolyte solution
Morigaki K |
| 24 - 32 |
Parametric studies of a double-cell stack of PEMFC using Grafoil (TM) flow-field plates
Hwang JJ, Hwang HS |
| 33 - 39 |
A comparative study on the substitution of divalent, trivalent and tetravalent metal ions in LiNi1-xMxO2 (M = Cu2+, Al3+ and Ti4+)
Kim J, Amine K |
| 40 - 45 |
Conductivity enhancement of PAN-based electrolytes containing cascade compounds with one amino and three or four nitrile groups
Tsutsumi H, Takase K, Onimura K, Oishi T |
| 46 - 51 |
Microbatteries for self-sustained hybrid micropower supplies
Harb JN, LaFollette RM, Selfridge RH, Howell LL |
| 52 - 61 |
Characterization of hydrous ruthenium oxide/carbon nanocomposite supercapacitors prepared by a colloidal method
Kim H, Popov BN |
| 62 - 65 |
Preparation and optimization of RuO2-impregnated SnO2 xerogel supercapacitor
Wu NL, Kuo SL, Lee MH |
| 66 - 72 |
Estimation of the membrane methanol diffusion coefficient from open circuit voltage measurements in a direct methanol fuel cell
Barragan VM, Heinzel A |
| 73 - 78 |
Intermediate temperature fuel cells based on doped ceria-LiCl-SrCl2 composite electrolyte
Fu QX, Zha SW, Zhang W, Peng DK, Meng GY, Zhu B |
| 79 - 84 |
Targeting improved DMFC performance
Hobson LJ, Nakano Y, Ozu H, Hayase S |
| 85 - 89 |
Characterization of polymer electrolytes based on poly(dimethyl siloxane-co-ethylene oxide)
Fonseca CP, Neves S |
| 90 - 96 |
Lithium alloy formation at bismuth thin layer electrode and its kinetics in propylene carbonate electrolyte
Wang XM, Nishina T, Uchida I |
| 97 - 100 |
Mesoporous tin oxides as lithium intercalation anode materials
Yu AS, Frech R |
| 101 - 107 |
Improving the high-temperature performance of LiMn2O4 spinel by micro-emulsion coating of LiCoO2
Liu ZL, Wang HB, Fang L, Lee JY, Gan LM |
| 108 - 114 |
Electrochemical behavior of plasma-fluorinated graphite for lithium ion batteries
Nakajima T, Gupta V, Ohzawa Y, Koh M, Singh RN, Tressaud A, Durand E |
| 115 - 124 |
Studies of biomass fuelled MCFC systems
Kivisaari T, Bjornbom P, Sylwan C |
| 125 - 131 |
Syntheses of LiCoO2 for cathode materials of secondary batteries from reflux reactions at 130-200 degrees C
Chang SK, Kweon HJ, Kim BK, Jung DY, Kwon YU |
| 132 - 139 |
Suppressive effect of Li2CO3 on initial irreversibility at carbon anode in Li-ion batteries
Choi YK, Chung KI, Kim WS, Sung YE, Park SM |
| 140 - 147 |
Studies of the effects of the reformer in an internal-reforming molten carbonate fuel cell by mathematical modeling
Park NK, Lee YR, Kim MH, Chung GY, Nam SW, Hong SA, Lim TH, Lim HC |
| 148 - 153 |
Camphor-based carbon nanotubes as an anode in lithium secondary batteries
Sharon M, Hsu WK, Kroto HW, Walton DRM, Kawahara A, Ishihara T, Takita Y |
| 154 - 155 |
The possibility of voltage prediction from the Coulomb potential created by the atoms of a cathode active material for Li ion cells (vol 90, pg 116, 2000)
Yamaki J, Egashira M, Okada S |
