| 191 - 192 |
Second international meeting on electrochromism (IME-2) San Diego, CA, 29 September 2 October, 1996
Ziegler JP |
| 193 - 203 |
Electrochromism in oxide films based on lanthanides
Azens A, Kullman L |
| 205 - 211 |
Polymer-based symmetric electrochromic devices
Arbizzani C, Cerroni MG, Mastragostino M |
| 213 - 221 |
Stress changes in electrochromic thin film electrodes: Laser beam deflection method (LBDM) as a tool for the analysis of intercalation processes
Dini D, Passerini S, Scrosati B, Decker F |
| 223 - 230 |
Zr-Ce oxides as candidates for optically passive counter electrodes
Veszelei M, Mattsson MS, Kullman L, Azens A, Granqvist CG |
| 231 - 235 |
The accelerating role of water in hydrogen insertion into tungsten trioxide
Bludska J, Vondrak J, Jakubec I, Krtil P |
| 237 - 248 |
Photometric characterization of an all solid state inorganic electrochromic large area device
Daneo A, Macrelli G, Polato P, Poli E |
| 249 - 258 |
Raman and XPS characterization of vanadium oxide thin films deposited by reactive RF sputtering
Cazzanelli E, Mariotto G, Passerini S, Smyrl WH, Gorenstein A |
| 259 - 269 |
Analysis of the influence of the gas pressure during the deposition of electrochromic WO3 films by reactive r.f. sputtering of W and WO3 target
Masetti E, Grilli ML, Dautzenberg G, Macrelli G, Adamik M |
| 271 - 280 |
The influence of charge capacity ratio on the performance of a complementary electrochromic system
Ho KC |
| 281 - 297 |
Electrochromic devices based on surface-modified nanocrystalline TiO2 thin-film electrodes
Campus F, Bonhote P, Gratzel M, Heinen S, Walder L |
| 299 - 307 |
Analysis of durability in lithium nickel oxide electrochromic materials and devices
Wen SJ, Kerr J, Rubin M, Slack J, von Rottkay K |
| 309 - 319 |
Durability of electrochromic glazing
Nagai J, McMeeking GD, Saitoh Y |
| 321 - 341 |
Progress toward durable, cost effective electrochromic window glazings
Sbar N, Badding M, Budziak R, Cortez K, Laby L, Michalski L, Ngo T, Schulz S, Urbanik K |
| 343 - 373 |
Comparative studies of "all sol-gel" electrochromic devices with optically passive counter-electrode films, ormolyte Li+ ionconductor and WO3 or Nb2O5 electrochromic films
Orel B, Krasovec UO, Macek M, Svegl F, Stangar UL |
| 375 - 394 |
Antimony-doped tin oxide powders: Electrochromic materials for printed displays
Coleman JP, Lynch AT, Madhukar P, Wagenknecht JH |
| 395 - 418 |
Printed, flexible electrochromic displays using interdigitated electrodes
Coleman JP, Lynch AT, Madhukar P, Wagenknecht JH |
| 419 - 436 |
Durability issues and service lifetime prediction of electrochromic windows for buildings applications
Czanderna AW, Benson DK, Jorgensen GJ, Zhang JG, Tracy CE, Deb SK |
| 437 - 448 |
Failure modes of sol-gel deposited electrochromic devices
Bell JM, Skryabin IL |
| 449 - 463 |
Durability evaluation of electrochromic devices - an industry perspective
Lampert CM, Agrawal A, Baertlien C, Nagai J |
| 465 - 475 |
Kinetics of charge injection in sol-gel deposited WO3
Wang J, Bell JM, Skryabin IL |
| 477 - 493 |
Status of reversible electrodeposition electrochromic devices
Ziegler JP |
