| 337 - 337 |
SPECIAL ISSUE: INTERNATIONAL BATTERY MATERIALS ASSOCATION 2007 CONFERENCE Preface
Winter M, Brodd RJ, Qiu XP, Yang XQ |
| 338 - 343 |
Methanol permeability and proton conductivity of Nafion membranes modified electrochemically with polyaniline
Huang QM, Zhang QL, Huang HL, Li WS, Huang YJ, Luo JL |
| 344 - 347 |
Enhanced Pt utilization in electrocatalysts by covering of colloidal silica nanoparticles
Zeng JH, Chen JJ, Lee JY |
| 348 - 352 |
Electrodeposition preparation of Pt-H chi WO3 composite and its catalytic activity toward oxygen reduction reaction
Huang YJ, Dai HH, Li WS, Li GL, Shu D, Chen HY |
| 353 - 360 |
Size-effect on the activity of anodic catalysts in alcohol and CO electrooxidation
Li XX, Qiu XP, Yuan HP, Chen LQ, Zhu WT |
| 361 - 369 |
Polyoxometallate-stabilized Pt-Ru catalysts on multiwalled carbon nanotubes: Influence of preparation conditions on the performance of direct methanol fuel cells
Han DM, Guo ZP, Zhao ZW, Zeng R, Meng YZ, Shu D, Liu HK |
| 370 - 374 |
Characterization of atmospheric plasma-sprayed La0.8Sr0.2Ga0.8Mg0.2O3 electrolyte
Li CX, Xie YX, Li CJ, Yang GJ |
| 375 - 380 |
Nanostructured polypyrrole/carbon composite as Pt catalyst support for fuel cell applications
Zhao HB, Li L, Yang J, Zhang YM |
| 381 - 384 |
The influences of multi-walled carbon nanotube addition to the anode on the performance of direct methanol fuel cells
Wu P, Li BH, Du HD, Gan L, Kang FY, Zeng YQ |
| 385 - 391 |
High yield hydrogen production from low CO selectivity ethanol steam reforming over modified Ni/Y2O3 catalysts at low temperature for fuel cell application
Sun J, Luo DF, Xiao P, Li JG, Yu S |
| 392 - 401 |
Electrochemical performance of LiCoO2 cathodes by surface modification using lanthanum aluminum garnet
Lu CZ, Chen JM, Cho YD, Hsu WH, Muralidharan P, Fey GTK |
| 402 - 407 |
Binary room-temperature complex electrolytes based on LiClO4 and organic compounds with acylamino group and its characterization for electric double layer capacitors
Wu F, Chen RJ, Wu F, Li L, Xu B, Chen S, Wang GQ |
| 408 - 413 |
Performance improvement of LiMn2O4 as cathode material for lithium ion battery with bismuth modification
Tan CL, Zhou HJ, Li WS, Hou XH, Lu DS, Xu MQ, Huang QM |
| 414 - 419 |
Structural and electrochemical characterization of chi Li[Li1/3Mn2/3]O-2.(1-chi)Li[Ni1/3Mn1/3CO1/3]O-2 (0 <= chi <= 0.9) as cathode materials for lithium ion batteries
Guo XJ, Li YX, Zheng M, Zheng JM, Li J, Gong ZL, Yang Y |
| 420 - 426 |
PVDF-HFP-based porous polymer electrolyte membranes for lithium-ion batteries
Miao RY, Liu BW, Zhu ZZ, Liu Y, Li JL, Wang XD, Li QF |
| 427 - 431 |
Application of cyclohexyl benzene as electrolyte additive for overcharge protection of lithium ion battery
Xu MQ, Xing LD, Li WS, Zuo XX, Shu D, Li GL |
| 432 - 436 |
Coating of multi-walled carbon nanotube with SnO2 films of controlled thickness and its application for Li-ion battery
Wang ZY, Chen G, Xia DG |
| 437 - 443 |
Novel electrospun poly(vinylidene fluoride-co-hexafluoropropylene)-in situ SiO2 composite membrane-based polymer electrolyte for lithium batteries
Raghaven P, Choi JW, Ahn JH, Cheruvally G, Chauhan GS, Ahn HJ, Nah C |
| 444 - 448 |
Effects of carbon coating and iron phosphides on the electrochemical properties of LiFePO4/C
Lin Y, Gao MX, Zhu D, Liu YF, Pan HG |
| 449 - 455 |
Functional electrolytes: Synergetic effect of electrolyte additives for lithium-ion battery
Abe K, Miyoshi K, Hattori T, Ushigoe Y, Yoshitake H |
| 456 - 461 |
Controlled synthesis of alpha-Fe2O3 nanostructures and their size-dependent electrochemical properties for lithium-ion batteries
Nuli Y, Zeng R, Zhang P, Guo ZP, Liu HK |
| 462 - 468 |
Li2MSiO4 (M = Fe and/or Mn) cathode materials
Dominko R |
| 469 - 472 |
Synthesis and electrochemical properties of olivine LiFePO4 prepared by a carbothermal reduction method
Liu HP, Wang ZX, Li XH, Guo HJ, Peng WJ, Zhang YH, Hu QY |
| 473 - 476 |
Cycleable graphite/FeSi6 alloy composite as a high capacity anode material for Li-ion batteries
Li T, Cao YL, Ai XP, Yang HX |
| 477 - 480 |
Preparation and performances of porous polyacrylonitrile-methyl methacrylate membrane for lithium-ion batteries
Zhou DY, Wang GZ, Li WS, Li GL, Tan CL, Rao MM, Liao YH |
| 481 - 484 |
Effects of graphite on electrochemical performance of Sn/C composite thin film anodes
Zhao LZ, Hu SJ, Ru Q, Li WS, Hou XH, Zeng RH, Lu DS |
| 485 - 488 |
Synthesis of spherical porous vanadium pentoxide and its electrochemical properties
Feng CQ, Wang SY, Zeng R, Guo ZP, Konstantinov K, Liu HK |
| 489 - 493 |
High power and high capacity cathode material LiNi0.5Mn0.5O2 for advanced lithium-ion batteries
Meng XL, Dou SM, Wang WL |
| 494 - 497 |
Low-temperature synthesis of highly crystallized LiMn2O4 from alpha manganese dioxide nanorods
Fang HS, Li LP, Yang Y, Yan GF, Li GS |
| 498 - 502 |
High-power LiFePO4 cathode materials with a continuous nano carbon network for lithium-ion batteries
Chen JM, Hsu CH, Lin YR, Hsiao MH, Fey GTK |
| 503 - 507 |
Electrochemical properties of new organic radical materials for lithium secondary batteries
Lee SH, Kim JK, Cheruvally G, Choi JW, Ahn JH, Chauhan GS, Song CE |
| 508 - 512 |
Preparation and electrochemical characterization of tin/graphite/silver composite as anode materials for lithium-ion batteries
Wang XY, Wen ZY, Lin B, Lin J, Wu XW, Xu XG |
| 513 - 516 |
An advanced electrolyte for improving surface characteristics of LiMn2O4 electrode
Guo YX, Yin ZG, Tao ZY, Li XH, Wang ZX |
| 517 - 521 |
New electrolytes for lithium ion batteries using LiF salt and boron based anion receptors
Li LF, Lee HS, Li H, Yang XQ, Yang KW, Yoon WS, McBreen J, Huang XJ |
| 522 - 526 |
Effect of carbon nanotube on the electrochemical performance of C-LiFePO4/graphite battery
Liu YJ, Li XH, Guo HJ, Wang ZX, Peng WJ, Yang Y, Liang RF |
| 527 - 531 |
Surface-modified maghemite as the cathode material for lithium batteries
Manuel J, Kim JK, Ahn JH, Cheruvally G, Chauhan GS, Choi JW, Kim KW |
| 532 - 537 |
A new process of preparing composite microstructure anode for lithium ion batteries
Zhao HP, Jiang CY, He XM, Ren JG |
| 538 - 542 |
Lithium iron phosphate with high-rate capability synthesized through hydrothermal reaction in glucose solution
Liang GC, Wang L, Ou XQ, Zhao X, Xu SZ |
| 543 - 547 |
Effects of magnesium doping on electronic conductivity and electrochemical properties of LiFePO4 prepared via hydrothermal route
Ou XQ, Liang GC, Wang L, Xu SZ, Zhao X |
| 548 - 552 |
Effects of carbon coating on the electrochemical properties of sulfur cathode for lithium/sulfur cell
Choi YJ, Chung YD, Baek CY, Kim KW, Ahn HJ, Ahn JH |
| 553 - 556 |
Diphenylamine: A safety electrolyte additive for reversible overcharge protection of 3.6V-class lithium ion batteries
Li SL, Ai XP, Feng JK, Cao YL, Yang HX |
| 557 - 561 |
Pillared layered Li1-2xCaxCoO2 cathode materials obtained by cationic exchange under hydrothermal conditions
Yang ZX, Yang WS, Tang ZF |
| 562 - 565 |
Macroporous nanocomposite polymer electrolyte for lithium-ion batteries
Li ZH, Zhang HP, Zhang P, Wu YP, Zhou XD |
| 566 - 569 |
Preparation and application of bamboo-like carbon nanotubes in lithium ion batteries
Zou L, Lv RT, Kang FY, Gan L, Shen WC |
| 570 - 573 |
Dimethyl methyl phosphate: A new nonflammable electrolyte solvent for lithium-ion batteries
Feng JK, Sun XJ, Ai XP, Cao YL, Yang HX |
| 574 - 577 |
LiFePO4 with enhanced performance synthesized by a novel synthetic route
Zheng JC, Li XH, Wang ZX, Guo HJ, Zhou SY |
| 578 - 582 |
Synthesis and performance of lithium vanadium phosphate as cathode materials for lithium ion batteries by a sol-gel method
Zhu XJ, Liu YX, Geng LM, Chen LB |
| 583 - 588 |
Electrochemical study on LiCo1/6Mn11/6O4 as cathode material for lithium ion batteries at elevated temperature
Huang H, Wang C, Zhang WK, Gan YP, Kang L |
| 589 - 592 |
Cresyl diphenyl phosphate as flame retardant additive for lithium-ion batteries
Zhou DY, Li WS, Tan CL, Zuo XX, Huang YJ |
| 593 - 597 |
Electrochemical binding and wiring in battery materials
Pejovnik S, Dominko R, Bele M, Gaberscek M, Jamnik J |
| 598 - 603 |
Fabrication and electrochemical properties of lithium-ion batteries for power tools
Liang RF, Wang ZX, Guo HJ, Li XH, Peng WJ, Wang ZG |
| 604 - 609 |
Sol-gel synthesis of Mg1.03Mn0.97SiO4 and its electrochemical intercalation behavior
Feng ZZ, Yang J, NuLi YN, Wang JL |
| 610 - 616 |
Surface treatment of zinc anodes to improve discharge capacity and suppress hydrogen gas evolution
Cho YD, Fey GTK |
| 617 - 621 |
Study on the surface modification of metal hydride electrodes with cobalt
Yang K, Chen S, Wu F |
| 622 - 626 |
Thermal behavior of overcharged nickel/metal hydride batteries
Li D, Yang K, Chen S, Wu F |
| 627 - 632 |
An improvement on cycling stability of Ti-V-Fe-based hydrogen storage alloys with Co substitution for Ni
Miao H, Gao MX, Liu YF, Zhu D, Pan HG |
| 633 - 636 |
Synthesises, characterizations and electrochemical properties of spherical-like LiFePO4 by hydrothermal method
Wang ZL, Su SR, Yu CY, Chen Y, Xia DG |
| 637 - 640 |
Graphite-carbon nanotube composite electrodes for all vanadium redox flow battery
Zhu HQ, Zhang YM, Yue L, Li WS, Li GL, Shu D, Chen HY |
| 641 - 645 |
Research activities in Shanghai Institute of Ceramics, Chinese Academy of Sciences on the solid electrolytes for sodium sulfur batteries
Wen ZY, Gu ZH, Xu XH, Cao JD, Zhang FL, Lin ZX |
| 646 - 651 |
High-rate discharge properties of nickel hydroxide/carbon composite as positive electrode for Ni/MH batteries
Zhang WK, Xia XH, Huang H, Gan YP, Wu JB, Tu JP |
| 652 - 656 |
A study on electrical conductivity of chemosynthetic Al2O3-2SiO(2) geoploymer materials
Cui XM, Zheng GJ, Han YC, Su F, Zhou J |
| 657 - 662 |
Preparation and electrochemical properties of CO-Si3N4 nanocomposites
Yao SM, Xi K, Li GR, Gao XP |
| 663 - 667 |
Preparation and electrochemical properties of ZnO/conductive-ceramic nanocomposite as anode material for Ni/Zn rechargeable battery
Huang H, Zhang L, Zhang WK, Gan YP, Shao H |
| 668 - 674 |
Improvement in electrochemical capacitance of carbon materials by nitric acid treatment
Chen XL, Li WS, Tan CL, Li W, Wu YZ |
| 675 - 681 |
Influence of high temperature treatment of porous carbon on the electrochemical performance in supercapacitor
Tian Y, Song Y, Tang ZH, Guo QG, Liu L |
| 682 - 690 |
Fabrication and electrochemical characterization of cobalt-based layered double hydroxide nanosheet thin-film electrodes
Wang Y, Yang WS, Chen C, Evans DG |
| 691 - 694 |
Supercapacitive studies on amorphous MnO2 in mild solutions
Xu CJ, Li BH, Du HD, Kang FY, Zeng YQ |
| 695 - 700 |
Layer-by-layer self-assembly of manganese oxide nanosheets/polyethylenimine multilayer films as electrodes for supercapacitors
Zhang X, Yang WS, Evans DG |
