Publications by authors named "Martin Rozman"

Most organic solvents are colorless liquids, usually stored in sealed containers. In many cases, their identification depends on the appropriate description on the container to prevent mishandling or mixing with other materials. Although modern laboratories rely heavily on identification technologies, such as digitized inventories and spectroscopic methods (e.

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Electrochromism encompasses reversible changes of material's optical properties (color, opacity) under the influence of an external electric current or applied voltage. The effect has been known for decades, but its importance continues to grow due to the rapid development of smart systems and the accompanying demand to build devices that consume less power. Most commercial electrochromic devices (ECDs) require sophisticated chemicals and advanced material preparation techniques.

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Electrochemical-based biosensors have the potential to be a fast, label-free, simple approach to detecting the effects of cytotoxic substances in liquid media. In the work presented here, a cell-based electrochemical biosensor was developed and evaluated to detect the cytotoxic effects of Zn ions in a solution as a reference test chemical. A549 cells were attached to the surface of stainless-steel electrodes.

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Article Synopsis
  • Humans often encounter environmental hepatotoxins that can cause liver failure, prompting the need for effective detection methods.* -
  • Biosensors are proposed as an ideal solution due to their sensitivity, specificity, affordability, and quick results, leading to the investigation of HepG2 cells for this application.* -
  • The study involved testing cell adhesion on stainless steel, assessing cell viability using various assays, and developing an electrochemical biosensor, confirming that HepG2 cells can effectively adhere and monitor hepatotoxic substances.*
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An electrochemical device that serves as a model biosensor and contains yeast Saccharomyces cerevisiae as the active biological element was developed. Different configurations of the electrochemical cells were assembled and tested. Stainless steel was used in the electrochemical cell composition process and the surface of this metal electrode was modified with a thin layer of WO3 if necessary.

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