Neshkovska et al.
ViewPDF| Publication | Publication Date | Title |
|---|---|---|
| Kamal et al. | The electrochromic behavior of nickel oxide films sprayed at different preparative conditions | |
| Granqvist et al. | Recent advances in electrochromics for smart windows applications | |
| Bange et al. | Electrochromic materials for optical switching devices | |
| Patel et al. | All-inorganic solid-state electrochromic devices: a review | |
| RU2127442C1 (en) | Electrochromium device and electrochromium combination | |
| Liu et al. | Electrolytes-relevant cyclic durability of nickel oxide thin films as an ion-storage layer in an all-solid-state complementary electrochromic device | |
| Jelle et al. | Performance of an electrochromic window based on polyaniline, prussian blue and tungsten oxide | |
| Atak et al. | LiNbO3 thin films for all-solid-state electrochromic devices | |
| Cogan et al. | Solar modulation in a-WO3/a-IrO2 and c-KxWO3+ (x/2)/a-IrO2 complementary electrochromic windows | |
| Cogan et al. | Materials and devices in electrochromic window development | |
| Jeong et al. | Complementary electrochromic devices based on acrylic substrates for smart window applications in aircrafts | |
| Mahmoud et al. | Electrochromic characterisation of electrochemically deposited nickel oxide films | |
| Munro et al. | Development of electrochromic cells by the sol–gel process | |
| Liao | Lithium-driven electrochromic properties of electrodeposited nickel hydroxide electrodes | |
| Sivakumar et al. | An electrochromic device (ECD) cell characterization on electron beam evaporated MoO3 films by intercalating/deintercalating the H+ ions | |
| Goldner et al. | Electrochromic materials for controlled radiant energy transfer in buildings | |
| Heusing et al. | Grey, brown and blue coloring sol–gel electrochromic devices | |
| Djafri et al. | Electrochemical synthesis of highly stable and rapid switching electrochromic Ni (OH) 2 nanoflake array films as low-cost method | |
| Bouvard et al. | Strong coloration of nanoporous tungsten oxides by in-vacuo lithiation for all-solid-state electrochromic devices | |
| Ristova et al. | Chemically deposited electrochromic cuprous oxide films for solar light modulation | |
| Goldner et al. | Electrochromic materials for controlled radiant energy transfer in buildings | |
| Ashrit et al. | Electrochromic materials for smart window applications | |
| Pehlivan et al. | Electrochromic nickel-oxide-based thin films in KOH electrolyte: Ionic and electronic effects elucidated by impedance spectroscopy | |
| Macedo et al. | Sol-gel electrochromic device: Code: F8 | |
| Sun et al. | Influence of water on the electrochemical properties of (CeO2) x (TiO2) 1− x and WO3 sol–gel coatings and electrochromic devices |