| 239 - 240 |
Proceedings of the Symposium on Materials for Advanced Batteries and Fuel Cells - Organised in Conjunction with the International Conference on Materials for Advanced Technologies (ICMAT 2001) - Singapore, 1-6 July 2001 - Preface
Chowdari BVR |
| 241 - 245 |
Thermal stability of graphite anode with electrolyte in lithium-ion cells
Yamaki J, Takatsuji H, Kawamura T, Egashira M |
| 247 - 258 |
Nano-alloy anode for lithium ion batteries
Li H, Shi LH, Wang Q, Chen LQ, Huang XJ |
| 259 - 268 |
Effect of current pulses on lithium intercalation batteries
de Jongh PE, Notten PHL |
| 269 - 282 |
Cathode materials for rechargeable batteries - preparation, structure-property relationships and performance
Gille G, Albrecht S, Meese-Marktscheffel J, Olbrich A, Schrumpf F |
| 283 - 289 |
Reaction behavior of LiFePO4 as a cathode material for rechargeable lithium batteries
Takahashi M, Tobishima S, Takei K, Sakurai Y |
| 291 - 298 |
The effect of varying the acid to metal ion ratio R on the structural, thermal, and electrochemical properties of sol-gel derived lithium nickel cobalt oxides
Fey GTK, Shiu RF, Subramanian V, Chen CL |
| 299 - 309 |
Nanocrystalline LiCo1-xNixO2 (0 <= x <= 0.3) for Li-ion batteries
Gnanasekar KI, Cathrino HA, Jiang JC, Mrse AA, Nagasubrahmanian G, Doughty DH, Rambabu B |
| 311 - 316 |
Thermal stability of LixCoO2 cathode for lithium ion battery
Baba Y, Okada S, Yamaki J |
| 317 - 321 |
Surface modification of Li1.03Mn1.97O4 spinels for improved capacity retention
Zheng ZH, Tang ZL, Zhang ZT, Shen WC, Lin YH |
| 323 - 328 |
Cathode properties of pyrophosphates for rechargeable lithium batteries
Uebou Y, Okada S, Egashira M, Yamaki JI |
| 329 - 334 |
Frequency-dependent conductivity and dielectric studies on LixV2O5 (x=0.6-1.6)
Selvasekarapandian S, Vijayakumar M |
| 335 - 342 |
Structural and electrochemical characterizations of surface-modified LiCoO2 cathode materials for Li-ion batteries
Wang ZX, Liu LJ, Chen LQ, Huang XJ |
| 343 - 350 |
Spinel phases, LiM1/6Mn11/6O4 (M=Co, CoAl, CoCr, CrAl), as cathodes for lithium-ion batteries
Shaju KM, Rao GVS, Chowdari BVR |
| 351 - 358 |
Preparation and characterization of LiNi0.7Co0.2Ti0.05M0.05O2 (M=Mg, Al and Zn) systems as cathode materials for lithium batteries
Subramanian V, Fey GTK |
| 359 - 366 |
Structure and electrochemistry of LiCrxMn1-xO2 cathode for lithium-ion batteries
Guo ZP, Wang GX, Liu HK, Dou SX |
| 367 - 374 |
Nano-sized mixed conductors (Aspects of nano-ionics. Part III)
Maier J |
| 375 - 379 |
Thin film lithium batteries
Souquet JL, Duclot M |
| 381 - 389 |
Characterization of Li2S-SiS2-LixMOy (M=Si, P, Ge) amorphous solid electrolytes prepared by melt-quenching and mechanical milling
Hayashi A, Yamashita H, Tatsumisago M, Minami T |
| 391 - 397 |
Advanced electrolytes
Oesten R, Heider U, Schmidt M |
| 399 - 404 |
Polymer electrolytes derived from dendritic polyether macromonomers
Watanabe M, Hirakimoto T, Mutoh S, Nishimoto A |
| 405 - 416 |
A short review of failure mechanisms of lithium metal and lithiated graphite anodes in liquid electrolyte solutions
Aurbach D, Zinigrad E, Cohen Y, Teller H |
| 417 - 423 |
Complex impedance and structural analyses of the mixed system 40(Cu1-xAgxI)-30(Ag2O)-30(SeO2), (0.05 <= x0.25)
Murugesan S, Suthanthiraraj SA, Maruthamuthu P |
| 425 - 429 |
Electrical properties of alumina-zirconia eutectic composites
Cicka R, Trnovcova V, Starostin MY |
| 431 - 436 |
Mechanochemically synthesized amorphous superionic systems for solid-state batteries
Dalvi A, Shahi K |
| 437 - 441 |
Inducing order in polymer
Beranger S, Fortier MH, Baril D, Armand MB |
| 443 - 449 |
Polymer gel electrolyte supported with microporous polyolefin membranes for lithium ion polymer battery
Wang Y, Travas-Sejdic J, Steiner R |
| 451 - 455 |
Effect of mixed salts on the properties of gel polymeric electrolytes
Deepa M, Sharma N, Agnihotry SA, Chandra R, Sekhon SS |
| 457 - 461 |
The effect of the coexistence of anion species in imidazolium cation-based molten salt systems
Egashira M, Okada S, Yamaki J |
| 463 - 466 |
Mixed solvent electrolytes containing fluorinated carboxylic acid esters to improve the thermal stability of lithium metal anode cells
Sato K, Yamazaki I, Okada S, Yamaki J |
| 467 - 473 |
Preparation and characterization of PVC/PMMA blend polymer electrolytes complexed with LiN(CF3SO2)(2)
Stephan AM, Saito Y, Muniyandi N, Renganathan NG, Kalyanasundaram S, Elizabeth RN |
| 475 - 481 |
Ionic conductivity and diffusion coefficient studies of PVdF-HFP polymer electrolytes prepared using phase inversion technique
Stephan AM, Saito Y |
| 483 - 486 |
Miscibility studies of PVC blends (PVC/PMMA and PVC/PEO) based polymer electrolytes
Ramesh S, Yahaya AH, Arof AK |
| 487 - 492 |
The possible use of polymer gel electrolytes in nickel/metal hydride battery
Iwakura C, Nohara S, Furukawa N, Inoue H |
| 493 - 498 |
Conducting polymers as electrode materials in supercapacitors
Mastragostino M, Arbizzani C, Soavi F |
| 499 - 502 |
Preparation and characterization of Mg0.9Ti0.06V0.04Ni-carbon material composites for electrochemical use
Iwakura C, Nohara S, Inoue H |
| 503 - 508 |
Structural study of Al-substituted nickel hydroxide
Wang CY, Zhong S, Konstantinov K, Walter G, Liu HK |
| 509 - 512 |
Characteristics of novel Co-free MlNi(4.2-x)Cu(0.5)Al(0.3)Zn(x) (0 < x < 0.1) hydrogen storage alloys
Wang YJ, Yuan HT, Wang GS, Zhang YS |
| 513 - 519 |
Material research for planar SOFC stack
Wen TL, Wang D, Chen M, Tu H, Lu Z, Zhang Z, Nie H, Huang W |
| 521 - 526 |
Order-disorder transformations induced by composition and temperature change in (SczYb1-z)(2)Ti2O7 pyrochlores, prospective fuel cell materials
Eberman KW, Wuensch BJ, Jorgensen JD |
| 527 - 531 |
Modelling and simulation of the mechanical properties of YSZ/Al2O3 composites: a preliminary study
Dotelli G, Mari CM |
| 533 - 537 |
Novel intermediate temperature ceramic fuel cells with doped ceria-based composite electrolytes
Meng GY, Fu QX, Zha SW, Xia CR, Liu XQ, Peng DK |
| 539 - 544 |
A study on the deformation of porous nickel oxide cathode materials in MCFC
Chen LJ, Lin CJ, Cheng X, Feng ZD |
| 545 - 549 |
An (La,Sr)(Co,Cu)O3-delta cathode for reduced temperature SOFCs
Yasumoto K, Inagaki Y, Shiono M, Dokiya M |
| 551 - 555 |
Pt-perovskite cermet cathode for reduced-temperature SOM
Sasaki K, Tamura J, Hosoda H, Lan TN, Yasumoto K, Dokiya M |
| 557 - 565 |
Phase characterization and electrical conductivity of LaSr(GaMg)(1-x)MnxO3 system
Yi JY, Choi GM |
| 567 - 573 |
Ionic conductivity in the CeO2-Gd2O3 system (0.05 <= Gd/Ce <= 0.4) prepared by oxalate coprecipitation
Zhang TS, Hing P, Huang HT, Kilner J |
| 575 - 581 |
Nanocrystalline bulk and thin films of La1-xSrMnO3 (0 <= x <= 0.3)
Gnanasekar KI, Jiang X, Jiang JC, Aghasyan M, Tiltsworth R, Hormes J, Rambabu B |
| 583 - 589 |
LiF-MgF2 composite electrolyte for advanced ceramic fuel cells: structure, electrical properties and applications
Zhu B, Fu QX, Meng GY, Jurado JF, Albinsson I, Mellander BE |
| 591 - 599 |
Novel electrocatalysts for direct methanol fuel cells
Chu D, Jiang RZ |
| 601 - 606 |
Materials and processes for small fuel cells
Chang H, Kim JR, Cho JH, Kim HK, Choi KH |
| 607 - 610 |
Proton-conducting hybrid solid electrolytes for intermediate temperature fuel cells
Nakajima H, Honma I |
