| 1 - 8 |
Corrosion behaviour of Zr1-xTixV0.6Ni1.2M0.2 (M=Ni, Cr, Mn) AB(2)-type metal hydride alloys in alkaline solution
Kim JS, Paik CH, Cho WI, Cho BW, Yun KS, Kim SJ |
| 9 - 12 |
Tin-based oxide anode for lithium-ion batteries with low irreversible capacity
Wan KB, Li SFY, Gao ZQ, Siow KS |
| 13 - 18 |
Discharge-charge characteristics and performance of Li/FeOOH(an) battery with PAN-based polymer electrolyte
Hwang KS, Yoon TH, Lee CW, Son YS, Hwang JK |
| 19 - 27 |
Measurement of the maximum charge and discharge powers of a nickel metal hydride battery for hybrid electric vehicles
Yang YF |
| 28 - 35 |
An analysis of float service life test data of VRLA batteries
Burgess WL |
| 36 - 43 |
Studies on the anodic and cathodic polarization of lead in sodium sulphate solution
Abd El Aal EE |
| 44 - 55 |
Particulate sol-gel synthesis and electrochemical characterization of LiMO2 (M=Ni, Ni0.75Co0.25) powders
Chang CC, Kumta PN |
| 56 - 63 |
Determination of the hydrogen diffusion coefficient in metal hydrides by impedance spectroscopy
Haran BS, Popov BN, White RE |
| 64 - 72 |
Coke vs graphite as anodes for lithium-ion batteries
Shi H |
| 73 - 83 |
V2O5 xerogel lithium-polymer electrolyte batteries
Prosini PP, Passerini S, Vellone R, Smyrl WH |
| 84 - 89 |
Investigation of changes in morphology and elemental distribution in metal hydride alloys after electrochemical cycling
Zhang WL, Visintin A, Srinivasan S, Appleby AJ, Lim HS |
| 90 - 100 |
Studies with porous zinc electrodes with additives for secondary alkaline batteries
Shivkumar R, Kalaignan GP, Vasudevan T |
| 101 - 107 |
Multi-step constant-current charging method for electric vehicle, valve-regulated, lead/acid batteries during night time for load-levelling
Ikeya T, Sawada N, Takagi S, Murakami J, Kobayashi K, Sakabe T, Kousaka E, Yoshioka H, Kato S, Yamashita M, Narisoko H, Mita Y, Nishiyama K, Adachi K, Ishihara K |
| 108 - 115 |
Performance and life of 10-kW molten-carbonate fuel cell stack using Li/K and Li/Na carbonates as the electrolyte
Mugikura Y, Yoshiba F, Izaki Y, Watanabe T, Takahashi K, Takashima S, Kahara T |
| 116 - 121 |
Mechanical properties and electrochemical characterisation of extruded doped cerium oxide for use as an electrolyte for solid oxide fuel cells
Bellon O, Sammes NM, Staniforth J |
| 122 - 129 |
Electrochemical hydrogen and lithium absorption/desorption in Ti46Ni45Nb9 alloy in aqueous electrolytes
Wang CS, Wu GT, Li WZ |
| 130 - 138 |
Corrosion kinetics of battery zinc alloys in electrolyte solutions
Szczesniak B, Cyrankowska M, Nowacki A |
| 139 - 143 |
Characterization of direct methanol fuel cells by AC impedance spectroscopy
Mueller JT, Urban PM |
| 144 - 150 |
Improving the performance of graphite anodes in rechargeable lithium batteries
Coowar F, Christie AM, Bruce PG, Vincent CA |
| 151 - 161 |
The use of computer simulation in the evaluation of electric vehicle batteries
Gu WB, Wang CY, Liaw BY |
| 162 - 166 |
Performance of planar single cell lanthanum gallate based solid oxide fuel cells
Maffei N, Kuriakose AK |
| 167 - 170 |
Investigation of the effects of V2O5 addition on the electrochemical properties of carbon anodes
Wu YP, Fang SB, Jiang YY |
| 171 - 174 |
Characterization of plasticized solid polymer electrolyte by XRD and AC impedance methods
Benedict TJ, Banumathi S, Veluchamy A, Gangadharan R, Ahamad AZ, Rajendran S |
| 175 - 179 |
Lithium insertion into CuO/carbon nanotubes
Wu GT, Wang CS, Zhang XB, Yang HS, Qi ZF, Li WZ |
| 181 - 182 |
Tin oxide tin composite anodes for use in Li-ion batteries
Wolfenstine J, Sakamoto J, Huang CK |
| 183 - 184 |
Structural and electrochemical studies of alpha-manganese dioxide (alpha-MnO2) (vol 68, pg 570, 1997)
Johnson CS, Dees DW, Mansuetto MF, Thackeray MM, Vissers DR, Argyriou D, Loong CK, Christensen L |
| 185 - 185 |
Planar solid oxide fuel cell integrated system technology development (vol 71, pg 354, 1998)
Elangovan S, Hartvigsen J, Khandkar A, Privette RM, Kneidel KE, Perna MA, Rowley DR |
