J
Ján Labuda
Researcher at Slovak University of Technology in Bratislava
Publications - 89
Citations - 2145
Ján Labuda is an academic researcher from Slovak University of Technology in Bratislava. The author has contributed to research in topics: Biosensor & Cyclic voltammetry. The author has an hindex of 26, co-authored 84 publications receiving 1851 citations.
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Journal ArticleDOI
Electrochemical nucleic acid-based biosensors: Concepts, terms, and methodology (IUPAC Technical Report)
Ján Labuda,Ana Maria Oliveira Brett,Gennady Evtugyn,Miroslav Fojta,Marco Mascini,Mehmet Ozsoz,Ilaria Palchetti,Emil Paleček,Joseph Wang +8 more
TL;DR: An electrochemical nucleic acid (NA)-based biosensor is a biosensor that integrates a nucleic acids as the biological recognition element and an electrode as the electrochemical signal transducer.
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Electroanalytical chemistry for the analysis of solids: Characterization and classification (IUPAC Technical Report)
TL;DR: In this paper, the relationship between molecular electrochemistry and solid state electroanalytical chemistry (SSEAC) is discussed and a critical evaluation of the different types of analytical information that are accessible by SSEAC is presented.
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Chemical Modification of Boron-Doped Diamond Electrodes for Applications to Biosensors and Biosensing.
TL;DR: Different methods and steps of surface modification of this electrode material for biosensing and construction of biosensors are discussed.
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Voltammetric Detection of the DNA Interaction with Copper Complex Compounds and Damage to DNA
TL;DR: In this paper, the binding reactions of copper(II) complexes of 1,10-phenanthroline (phen) and tetraaza macrocyclic ligand TAAB with calf thymus DNA have been investigated voltammetrically at bare and DNA modified glassy carbon electrodes.
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Evaluation of the redox properties and anti/pro-oxidant effects of selected flavonoids by means of a DNA-based electrochemical biosensor.
TL;DR: Antioxidant activity of flavonoids was tested in a model cleavage mixture composed of 5×10−7 mol L−1 [Cu(phen)2]2+ as the catalyst, ascorbic acid as the chemical reductant and atmospheric oxygen as the natural oxidant where reactive oxygen radicals are generated.