"2"^^ . "0031-8965" . "Nanostructures have recently attracted great interest because of their unique properties and potential use in a broad range of technological applications. In the case of electrochemical microsensors, an array of nanostructures can be used to enlarge the surface area of sensing electrodes and it also has a positive impact on the redox reactions on their surfaces. It is assumed that these microsensors will then have higher sensitivity due to the surface modification. One of the easiest ways to modify an electrode surface by nanostructures is to deposit a metal into a thin nanoporous Al2O3 template which is placed on a gold electrode. Metal ions are attracted to the cathode (the gold electrode) during electrodeposition and fill the nanopores in the template. After completing the electrodeposition process, the template is dissolved and the metal nanostructures are obtained. Both nanorods and nanotubes of various wall-thicknesses can be created by this method. It has been found that the type of the nanostr" . . "6" . . . . . "Klosov\u00E1, Kate\u0159ina" . "Hub\u00E1lek, Jarom\u00EDr" . "205" . "Advanced electrodes with nanostructured surfaces for electrochemical microsensors" . . "[45B41116BCAA]" . "26220" . . . . "354982" . . "CZ - \u010Cesk\u00E1 republika" . . "4"^^ . . "Advanced electrodes with nanostructured surfaces for electrochemical microsensors" . . . "physica status solidi" . . . "nowires, nanorods, galvanostatic deposition"@en . . "RIV/00216305:26220/08:PU77996!RIV10-MSM-26220___" . "RIV/00216305:26220/08:PU77996" . "Advanced electrodes with nanostructured surfaces for electrochemical microsensors"@en . "Advanced electrodes with nanostructured surfaces for electrochemical microsensors"@en . "P(1QS201710508), Z(MSM0021630503)" . . "2"^^ . "Nanostructures have recently attracted great interest because of their unique properties and potential use in a broad range of technological applications. In the case of electrochemical microsensors, an array of nanostructures can be used to enlarge the surface area of sensing electrodes and it also has a positive impact on the redox reactions on their surfaces. It is assumed that these microsensors will then have higher sensitivity due to the surface modification. One of the easiest ways to modify an electrode surface by nanostructures is to deposit a metal into a thin nanoporous Al2O3 template which is placed on a gold electrode. Metal ions are attracted to the cathode (the gold electrode) during electrodeposition and fill the nanopores in the template. After completing the electrodeposition process, the template is dissolved and the metal nanostructures are obtained. Both nanorods and nanotubes of various wall-thicknesses can be created by this method. It has been found that the type of the nanostr"@en .