. . . "NANOELECTRODES FOR BIOPHYSICAL MEASURMENTS"@en . "2"^^ . . "26220" . . . . "In -vivo impedance measurement of cells is the objective of current scientific research in area of biological sciences. The problem that needs to be solved is how the cells can be contacted with electrodes. One possible solution can be based on nanoelectrodes that could be fabricated dueto current high technology level. The main goal of this work is to design and create nanoelectrodes using thin-film techniques together with lithography and nanotechniques developed in LabSensNano.The work is engaged in UV and e-beam lithography,and in preparation of silicon wafers. Furthermore a brief electrodes design, fabrication concept and current state of the experiment are proposed."@en . . "2"^^ . "Nanoelectrodes for biophysical measurements"@cs . . . . "In -vivo impedance measurement of cells is the objective of current scientific research in area of biological sciences. The problem that needs to be solved is how the cells can be contacted with electrodes. One possible solution can be based on nanoelectrodes that could be fabricated dueto current high technology level. The main goal of this work is to design and create nanoelectrodes using thin-film techniques together with lithography and nanotechniques developed in LabSensNano.The work is engaged in UV and e-beam lithography,and in preparation of silicon wafers. Furthermore a brief electrodes design, fabrication concept and current state of the experiment are proposed." . . "Nanoelectrodes for biophysical measurements" . "RIV/00216305:26220/11:PU107757" . "[82024B10A0CA]" . "NANOELECTRODES FOR BIOPHYSICAL MEASURMENTS"@en . "P(KAN208130801), Z(MSM0021630503)" . . "RIV/00216305:26220/11:PU107757!RIV14-MSM-26220___" . "M\u00E1rik, Marian" . "214758" . . "Lithography, photoresist, cleaning, nanoelectrodes, masking, wave length, developing"@en . "Nanoelectrodes for biophysical measurements"@cs . . . . "In -vivo impedance measurement of cells is the objective of current scientific research in area of biological sciences. The problem that needs to be solved is how the cells can be contacted with electrodes. One possible solution can be based on nanoelectrodes that could be fabricated dueto current high technology level. The main goal of this work is to design and create nanoelectrodes using thin-film techniques together with lithography and nanotechniques developed in LabSensNano.The work is engaged in UV and e-beam lithography,and in preparation of silicon wafers. Furthermore a brief electrodes design, fabrication concept and current state of the experiment are proposed."@cs . "Hub\u00E1lek, Jarom\u00EDr" . . . "M\u00E1rik, Marian" . . . "Nanoelectrodes for biophysical measurements" . .