| 89 - 90 |
Seventh International Meeting on Electrochromism (IME-7), Istanbul, Turkey, 3-7 September 2006
Ozer NM, Tepehan GG |
| 91 - 96 |
Iridium-based oxides: Recent advances in coloration mechanism, structural and morphological characterization
Backholm J, Avendano E, Azens A, de M Azevedo G, Coronel E, Niklasson GA, Granqvista CG |
| 97 - 100 |
Progress toward roll-to-roll processing of inorganic monolithic electrochromic devices on polymeric substrates
Widjaja EJ, Delporte G, Vandevelde F, Vanterwyngen B |
| 101 - 106 |
All-plastic electrochromic devices based on PEDOT as switchable optical attenuator in the near IR
Pozo-Gonzalo C, Mecerreyes D, Pomposo JA, Salsamendi M, Marcilla R, Grande H, Vergaz R, Barrios D, Sanchez-Pena JM |
| 107 - 111 |
Electro-optical analysis of PEDOT symmetrical electrochromic devices
Vergaz R, Barrios D, Pena JMS, Marcos C, Pozo C, Pomposo JA |
| 112 - 119 |
Influence of coloring voltage on the optical performance and cycling stability of a polyaniline-indium hexacyanoferrate electrochromic system
Wang JY, Yu CM, Hwang SC, Ho KC, Chen LC |
| 120 - 125 |
Solid electrolyte of tantalum oxide thin film deposited by reactive DC and RF magnetron sputtering for all-solid-state switchable mirror glass
Tajima K, Yamada Y, Bao S, Okada M, Yoshimura K |
| 126 - 135 |
Imidazolium-based ionic liquid derivatives for application in electrochromic devices
Vuk AS, Jovanovski V, Pollet-Villard A, Jerman I, Orel B |
| 136 - 139 |
Organic electrochromism for a new color electronic paper
Kobayashi N, Miura S, Nishimura M, Urano H |
| 140 - 145 |
Mechanistic study of the redox process of an in situ oxidatively polymerised poly(3,4-ethylene-dioxythiophene) film
Ruffo R, Celik-Cochet A, Posset U, Mari CM, Schouner G |
| 146 - 153 |
An EQCM study for a novel aromatic poly(amine-imide) electrochromic thin film
Yen TL, Lo HC, Liou GS, Ho KC |
| 154 - 159 |
Multichromic conducting copolymer of 1-benzyl-2,5-di(thiophen-2-yl)-1H-pyrrole with EDOT
Camurlu P, Tarkuc S, Sahmetlioglu E, Akhmedov IM, Tanyeli C, Toppare L |
| 160 - 163 |
Electrochromic properties of Ni oxide thin films in diluted acidic electrolytes and their stability
Abe Y, Lee SH, Zayim EO, Tracy CE, Pitts JR, Deb SK |
| 164 - 169 |
Sol-gel deposited nickel oxide films for electrochromic applications
Zayim EO, Turhan I, Tepehan FZ, Ozer N |
| 170 - 178 |
Influence of polyethylene glycol template on microstructure and electrochromic properties of tungsten oxide
Deepa M, Kar M, Singh DP, Srivastava AK, Ahmad S |
| 179 - 183 |
Electrochromic properties of one-dimensional tungsten oxide nanobundles
Yoo SJ, Jung YH, Lim JW, Choi HG, Kim DK, Sung YE |
| 184 - 189 |
Effect of salts on the fumed silica-based composite polymer electrolytes
Ahmad S, Deepa M, Agnihotry SA |
| 190 - 193 |
Color change of V2O5 thin films upon exposure to organic vapors
Seo C, Cheong H, Lee SH |
| 194 - 202 |
The roles of anion and solvent transport during the redox switching process at a poly(butyl viologen) film studied by an EQCM
Hsu CY, Liao CH, Ho KC |
| 203 - 208 |
Oxide electrochromics: Why, how, and whither
Granqvist CG |
| 209 - 215 |
Electrochromic WO3 thin films active in the IR region
Sauvet K, Rougier A, Sauques L |
| 216 - 223 |
Metal buffer layer inserted switchable mirrors
Bao S, Tajima K, Yamada Y, Okada M, Yoshimura K |
| 224 - 227 |
Magnesium-titanium alloy thin-film switchable mirrors
Bao S, Tajima K, Yamada Y, Okada M, Yoshimura K |
| 228 - 233 |
All solid-state electrochromic devices with gelatin-based electrolyte
Avellaneda CO, Vieira DF, Al-Kahlout A, Heusing S, Leite ER, Pawlicka A, Aegerter MA |
| 234 - 239 |
Electrochromic properties of heat-treated thin films of CeO2-TiO2-ZrO2 prepared by sol-gel route
Ghodsi FE, Tepehan FZ, Tepehan GG |
| 240 - 244 |
Optical and electrochemical properties of CeO2 thin film prepared by an alkoxide route
Avellaneda CO, Berton MAC, Bulhoes LOS |
| 245 - 258 |
Opportunities and challenges in science and technology of WO3 for electrochromic and related applications
Deb SK |
