Antimicrobial, Oxidant, Cytotoxic, and Eco-Safety Properties of Sol–Gel-Prepared Silica–Copper Nanocomposite Materials

Antimicrobial, Oxidant, Cytotoxic, and Eco-Safety Properties of Sol–Gel-Prepared Silica–Copper Nanocomposite Materials

<b>Background:</b> The present work is devoted to the biological effects of sol–gel-derived silica (Si)–copper (Cu) nanomaterials. <b>Methods and Results:</b> Tetraethyl orthosilane (TEOS) was used as a silica precursor; copper was introduced as a solution in ethanol with Cu(...

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Main Authors: Lilia Yordanova, Lora Simeonova, Miroslav Metodiev, Albena Bachvarova-Nedelcheva, Yoanna Kostova, Stela Atanasova-Vladimirova, Elena Nenova, Iliana Ivanova, Lyubomira Yocheva, Elitsa Pavlova
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Pharmaceuticals
Subjects:
silica–copper nanocomposite
sol–gel method
antibacterial activity
ROS
cytotoxicity
eco-safety
Online Access:https://www.mdpi.com/1424-8247/18/7/976
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Summary:<b>Background:</b> The present work is devoted to the biological effects of sol–gel-derived silica (Si)–copper (Cu) nanomaterials. <b>Methods and Results:</b> Tetraethyl orthosilane (TEOS) was used as a silica precursor; copper was introduced as a solution in ethanol with Cu(OH)<sub>2</sub>. The obtained samples were denoted as Si/Cu (gel) and Si/Cu/500 (500 °C heat-treated). Their phase formation and morphology were studied by XRD and SEM. The antibacterial activity was tested by two Gram-positive bacteria, three Gram-negative bacteria, and two types of eukaryotic species. Most bacteria were more sensitive to Si/Cu/500 materials than to Si/Cu (gel). The yeasts were more sensitive to Si/Cu (gel). The new nanomaterials were tested for oxidant activity at pH 7.4 (physiological) and pH 8.5 (optimal) in three model systems by the chemiluminescent method. They significantly inhibited the generation of free radicals and ROS. This result underlines their potential as regulators of the free radical processes in living systems. The epithelial tumor cell lines appeared more sensitive than the non-transformed fibroblasts, likely due to their metabolic activity and proliferation rates, leading to greater accumulation of the substances. Using <i>Daphnia magna</i>, the ecotoxicity study showed that the LC<sub>50</sub> was reached at 1 mg/L of Si/Cu/500. Si/Cu (gel) was more toxic. <b>Conclusions:</b> Our results reveal the potential of these nanohybrids to be applied in living, eukaryotic systems. The cytotoxicity evaluation showed higher tolerance of normal, non-transformed cells, in concurrence with the oxidation tests.
ISSN:1424-8247

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