| 481 - 496 |
Current research trends and prospects among the various materials and designs used in lithium-based batteries
Wagner R, Preschitschek N, Passerini S, Leker J, Winter M |
| 497 - 505 |
Performance of lithium tetrafluorooxalatophosphate in methyl butyrate electrolytes
Zhou L, Xu MQ, Lucht BL |
| 507 - 514 |
Influence of surface roughness on the electrochemical behavior of carbon steel
Kim SK, Park IJ, Lee DY, Kim JG |
| 515 - 521 |
Polymer gel electrolytes containing sulfur-based ionic liquids in lithium battery applications at room temperature
Li MT, Yang BL, Zhang Z, Wang L, Zhang Y |
| 523 - 531 |
Electrochemical sensing of NADH on NiO nanoparticles-modified carbon paste electrode and fabrication of ethanol dehydrogenase-based biosensor
Aydogdu G, Zeybek DK, Zeybek B, Pekyardimci S |
| 533 - 540 |
Electrochemical characterization of anodic biofilm development in a microbial fuel cell
Martin E, Savadogo O, Guiot SR, Tartakovsky B |
| 541 - 551 |
Zinc deposition and dissolution in sulfuric acid onto a graphite-resin composite electrode as the negative electrode reactions in acidic zinc-based redox flow batteries
Pan JL, Wen YH, Cheng J, Pan JQ, Bai ZL, Yang YS |
| 553 - 557 |
Development of nitrogen-doped carbons using the hydrothermal method as electrode materials for vanadium redox flow batteries
Lee H, Kim H |
