. "Kom\u00E1rek, Michal" . "Nanofibrous materials prepared at TUL and their utilization potential for the electrochemical applications"@en . "978-80-214-4767-7" . "RIV/46747885:24620/13:#0000383!RIV14-MSM-24620___" . "[30AFDEE2F67B]" . "Nanofibrous materials prepared at TUL and their utilization potential for the electrochemical applications" . . "nanofibers, electrochemistry, electrodes, separators"@en . . "The aim of the publication is to introduce the scope of the research activities focused on the preparation, functionalization and the final applications of the nanofibrous materials at the Technical university of Liberec. Various types of the nanofibrous composite materials developed for the different final applications, such as filtration, catalysis, or the water cleaning are promising to show the application potential in the electrochemical systems, e.g. dye sensitized solar cells, battery electrodes and separators, fuel cells and supercapacitors. The elementary improvement of the state of the art technologies can be seen in the nanostructuring of the functional elements, especially electrodes. Benefits of such structuring are the increase of the reaction surface area, relative mechanical stability and the versatility of the modification possibilities." . "24620" . "1"^^ . . . . "1"^^ . . "Neuveden" . "14th International Conference: Advanced Batteries, Accumulators and Fuel Cells [ABAF 14th]" . . "Nanofibrous materials prepared at TUL and their utilization potential for the electrochemical applications"@en . "2013-01-01+01:00"^^ . "Nanofibrous materials prepared at TUL and their utilization potential for the electrochemical applications" . "9"^^ . . "RIV/46747885:24620/13:#0000383" . "90588" . . . "P(EE2.3.30.0024)" . . . . "Brno" . . . . "The aim of the publication is to introduce the scope of the research activities focused on the preparation, functionalization and the final applications of the nanofibrous materials at the Technical university of Liberec. Various types of the nanofibrous composite materials developed for the different final applications, such as filtration, catalysis, or the water cleaning are promising to show the application potential in the electrochemical systems, e.g. dye sensitized solar cells, battery electrodes and separators, fuel cells and supercapacitors. The elementary improvement of the state of the art technologies can be seen in the nanostructuring of the functional elements, especially electrodes. Benefits of such structuring are the increase of the reaction surface area, relative mechanical stability and the versatility of the modification possibilities."@en . .