| 295 - 309 |
Chronoamperometry as an electrochemical in situ approach to investigate the electrolyte wetting process of lithium-ion cells
Peter C, Nikolowski K, Reuber S, Wolter M, Michaelis A |
| 311 - 319 |
Electrochemical determination of dopamine using a conductive polypyrrole/carbon-coated mesoporous silica composite electrode
Liu YC, Hsu WF, Wu TM |
| 321 - 331 |
Carbon-coated Fe3O4 nanospindles as solid electrolyte interface for improving graphite anodes in lithium ion batteries
Moradi B, Wang D, Botte GG |
| 333 - 341 |
Performance of H-2-fed fuel cell with chitosan/silicotungstic acid membrane as proton conductor
Di Franco F, Zaffora A, Burgio G, Santamaria M |
| 343 - 354 |
Hard limitations of polynomial approximations for reduced-order models of lithium-ion cells
Ortiz-Ricardez FA, Romero-Becerril A, Alvarez-Icaza L |
| 355 - 366 |
Electrodeposition of titanium-vanadium alloys from chloride-based molten salts: influence of electrolyte chemistry and deposition potential on composition, morphology and microstructure
Gussone J, Vijay CRY, Watermeyer P, Milicevic K, Friedrich B, Haubrich J |
| 367 - 381 |
Investigation of electrochemical properties of electropolishing Co-Cr dental alloy
Han W, Fang FZ |
| 383 - 394 |
Ultrasonic exfoliation of carbon fiber: electroanalytical perspectives
Casimero C, Hegarty C, McGlynn RJ, Davis J |
