. . "atmospheric pressure technologies; nano structured surfaces; plasma chemical etching; bioactive surfaces; transparent conductive surfaces; photovoltaics; aligned single wall carbon nanotubes"@en . . . "FLEXIBLE PRODUCTION TECHNOLOGIES AND EQUIPMENT BASED ON ATMOSPHERIC PRESSURE PLASMA PROCESSING FOR 3D NANO STRUCTURED SURFACES"@en . . "2009-06-01+02:00"^^ . "http://www.isvav.cz/projectDetail.do?rowId=7E09039"^^ . . . " transparent conductive surfaces" . . "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 . " bioactive surfaces" . . . " nano structured surfaces" . "7E09039" . . "2012-11-30+01:00"^^ . "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 . . . "Outstanding progress has been made in recent years in developing novel structures and applications for direct fabrication of 3D nanosurfaces. However, exploitation is limited by lack of suitable manufacturing technologies. In this project we will develop innovative in-line high throughput technologies based on atmospheric pressure surface and plasma technologies. The two identified approaches to direct 3D nanostructuring are etching for manufacturing of nanostructures tailored for specific applications, and coating. Major impact areas were selected, demonstrating different application fields. Impact Area 1 focuses on structures for solar cell surfaces. Nanostructured surfaces have the potential to improve efficiencies of cells by up to 25% (rel), having dramatic impact on commercial viability. Impact Area 2 focuses on biocidal surface structures. Increasing concerns about infections leading to the conclusion, that only multi-action approaches for control of infection transfer can be effective. We pl" . " plasma chemical etching" . . "Outstanding progress has been made in recent years in developing novel structures and applications for direct fabrication of 3D nanosurfaces. However, exploitation is limited by lack of suitable manufacturing technologies. In this project we will develop innovative in-line high throughput technologies based on atmospheric pressure surface and plasma technologies. The two identified approaches to direct 3D nanostructuring are etching for manufacturing of nanostructures tailored for specific applications, and coating. Major impact areas were selected, demonstrating different application fields. Impact Area 1 focuses on structures for solar cell surfaces. Nanostructured surfaces have the potential to improve efficiencies of cells by up to 25% (rel), having dramatic impact on commercial viability. Impact Area 2 focuses on biocidal surface structures. Increasing concerns about infections leading to the conclusion, that only multi-action approaches for control of infection transfer can be effective. We pl"@en . . "0"^^ . . "atmospheric pressure technologies" . "1"^^ . . "0"^^ . . "2012-03-19+01:00"^^ . "0"^^ . " photovoltaics" . . "FLEXIBLE PRODUCTION TECHNOLOGIES AND EQUIPMENT BASED ON ATMOSPHERIC PRESSURE PLASMA PROCESSING FOR 3D NANO STRUCTURED SURFACES" . "0"^^ . "2013-06-28+02:00"^^ .