. " nanocomposites" . . . "Hodnocen\u00ED v\u00FDsledk\u016F \u0159e\u0161en\u00ED ministerstvo neprov\u00E1d\u00ED, nebo\u0165 podm\u00EDnkou podpory je, \u017Ee uchaze\u010D byl vybr\u00E1n mezin\u00E1rodn\u00EDm poskytovatelem v souladu s pravidly p\u0159\u00EDslu\u0161n\u00E9ho programu. Projekt je hodnocen a\u017E po jeho schv\u00E1len\u00ED mezin\u00E1rodn\u00EDm poskytovatelem."@cs . "2013-06-28+02:00"^^ . "Innovative Switchable Shading Appliances based on Nanomaterials and Hybrid Electrochromic Device Configurations"@en . "0"^^ . . "zde zapsat 1 kl\u00ED\u010Dov\u00E9 slovo" . "2012-12-31+01:00"^^ . "1"^^ . "0"^^ . "Innovative Switchable Shading Appliances based on Nanomaterials and Hybrid Electrochromic Device Configurations" . . "0"^^ . . . . "0"^^ . . "Scientific and technical objectives: Improvement of pot lifes and particle sizes of coating sols for both in-situ polymerisation and redispersion routes. Scaled up monomer and coating sol production through environmentally friendly and resource-effective processes including eco-toxicological assessment. Establishment of a previously developed colour modification concept based on electrochromic redox dyes to obtain neutral tints. Decrease of transparent electrode resistence. By TCO codoping and adaptation of deposition parameters to shorten response times and increase stability in large size devices. Use of a novel preparation to obtain highly dense targets using specific additives (previous patent). Employment of economically viable continuous industrial coating processes for: Electrochromic nanocomposite material with neutral tint (reduced state) and 90 % VIS transmittance. Pseudotransparent or complementary colouring ion storage layers based on nanoscale sol gel materials, Prussian Blue colloids, and chromilium xantilium salts, respectively, with high capacity. Solid polymer electrolytes to be manufactured in continuous processes, in particular for devices that will have to be post processed mechanically; Low Tg hydrophobic polymer ionic liquid electrolytes processable by high throughput industrial coating technology for devices requiring a high stability against moisture or a low operating temperature. Nanoscale functional (conductive) oxide films deposited onto plastic foils and sheets to create high performance TCO plastic pairings. Design and construction of universal and modular coating lines for the application of the developed large scale coating solutions. Modelling to design and predict processes and production lines. Adaptation to the requirements in terms of viscosity and rheology of the coating solutions, type of application and method of curing (IR, DT or UV curing)." . . . "http://www.isvav.cz/projectDetail.do?rowId=7E12082"^^ . " electrochromic devices" . . "2012-11-29+01:00"^^ . " sol gel materials" . "Scientific and technical objectives: Improvement of pot lifes and particle sizes of coating sols for both in-situ polymerisation and redispersion routes. Scaled up monomer and coating sol production through environmentally friendly and resource-effective processes including eco-toxicological assessment. Establishment of a previously developed colour modification concept based on electrochromic redox dyes to obtain neutral tints. Decrease of transparent electrode resistence. By TCO codoping and adaptation of deposition parameters to shorten response times and increase stability in large size devices. Use of a novel preparation to obtain highly dense targets using specific additives (previous patent). Employment of economically viable continuous industrial coating processes for: Electrochromic nanocomposite material with neutral tint (reduced state) and 90 % VIS transmittance. Pseudotransparent or complementary colouring ion storage layers based on nanoscale sol gel materials, Prussian Blue colloids, and chromilium xantilium salts, respectively, with high capacity. Solid polymer electrolytes to be manufactured in continuous processes, in particular for devices that will have to be post processed mechanically; Low Tg hydrophobic polymer ionic liquid electrolytes processable by high throughput industrial coating technology for devices requiring a high stability against moisture or a low operating temperature. Nanoscale functional (conductive) oxide films deposited onto plastic foils and sheets to create high performance TCO plastic pairings. Design and construction of universal and modular coating lines for the application of the developed large scale coating solutions. Modelling to design and predict processes and production lines. Adaptation to the requirements in terms of viscosity and rheology of the coating solutions, type of application and method of curing (IR, DT or UV curing)."@en . "7E12082" . "Following the condition that the candidate of financial contribution was evaluated and afterwards selected by international provider in accordance with the rules of the program the Ministry of Education, Youth ans Sports does not realize the evaluation of project results. The project is evaluated only after its approval by an international provider."@en . . . "2012-01-01+01:00"^^ . . . . . " dal\u0161\u00ED p\u0159idat do dal\u0161\u00EDch \u0159\u00E1dk\u016F" . . "zde zapsat 1 kl\u00ED\u010Dov\u00E9 slovo, dal\u0161\u00ED p\u0159idat do dal\u0161\u00EDch \u0159\u00E1dk\u016F; electrochromic devices; nanocomposites; sol gel materials; roll to roll processing"@en . .