S
Samo B. Hočevar
Researcher at New Mexico State University
Publications - 89
Citations - 5881
Samo B. Hočevar is an academic researcher from New Mexico State University. The author has contributed to research in topics: Anodic stripping voltammetry & Bismuth. The author has an hindex of 38, co-authored 81 publications receiving 5339 citations. Previous affiliations of Samo B. Hočevar include University of Pardubice.
Papers
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Square-wave voltammetric determination of pantoprazole using ex situ plated antimony-film electrode
Biljana Nigović,Samo B. Hočevar +1 more
TL;DR: In this article, the antimony film electrode (SbFE) was used for expedient measurement of pantoprazole, i.e. an important pharmaceutical substance, in direct square-wave voltammetric mode.
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Electrochemical in-situ dissolution study of structurally ordered, disordered and gold doped PtCu 3 nanoparticles on carbon composites
Primož Jovanovič,Vid Simon Šelih,Martin Šala,Samo B. Hočevar,Andraž Pavlišič,Matija Gatalo,Marjan Bele,Francisco Ruiz-Zepeda,Miha Čekada,Nejc Hodnik,Miran Gaberšček +10 more
TL;DR: In this paper, a comparative corrosion study of a PtCu 3 nano-alloy system by investigating the effects of structural ordering and gold doping is presented, where a recently developed electrochemical flow cell coupled to inductively coupled plasma mass spectrometer (ICP-MS) is employed.
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Novel Electrochemical Microsensor for Hydrogen Peroxide based on Iron-Ruthenium Hexacyanoferrate Modified Carbon Fiber Electrode
TL;DR: In this article, a new electrochemical microsensor based on mixed iron-ruthenium hexacyanoferrate (FeRuHCF) modified carbon fiber microelectrode (CFME) is presented for voltammetric and amperometric measurement of hydrogen peroxide at physiological pH.
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Nickel hexacyanoferrate modified screen-printed carbon electrode for sensitive detection of ascorbic acid and hydrogen peroxide.
TL;DR: The proposed NiHCF-SPCE sensor has been shown to be a very attractive electrochemical sensor for AA and H2O2, also in a view of inexpensive mass production of disposable single-use sensors.
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Mechanisms and kinetics of electrode processes at bismuth and antimony film and bare glassy carbon surfaces under square-wave anodic stripping voltammetry conditions
TL;DR: In this paper, a qualitative comparison of simulated and experimental data for three different electrode reaction mechanisms, i.e. simple anodic stripping mechanism, anode stripping mechanism coupled with adsorption of metal analyte ions, and mechanism affected by interactions within the particles of the metal deposit on the electrode surface, is presented.