Your search keyword '"Khachatryan, Gohar"' showing total 8 results

1. The In Vitro Toxicity Profile of ZnS and CdS Quantum Dots in Polysaccharide Carriers (Starch/Chitosan).

Author

Grzesiakowska A, Dzióbek M, Kuchta-Gładysz M, Wojciechowska-Puchałka J, Khachatryan K, Khachatryan G, and Krystyjan M

Subjects

Animals, Mice, Starch, Polysaccharides, Chitosan, Quantum Dots toxicity, Sulfides, Zinc Compounds, Cadmium Compounds

Abstract

Nanocomposites are an emerging technology for ensuring food safety and quality. Their unique properties, attributed to nanoparticle presence, facilitate the development of sophisticated sensors and biosensors for detecting harmful substances, microbial growth, and environmental changes in food products. Smart and/or active food packaging development also benefits from the use of nanocomposites. This packaging, or portions of it, provide active protection for its contents and serve as sensors to promptly, simply, and safely identify any detrimental changes in stored food, without elaborate techniques or analyses. Films made from potato starch and chitosan were produced and quantum dots of zinc sulfide (ZnS) and cadmium sulfide (CdS)were synthesized in them for this study. The presence and dimensions of the QDs (quantum dots) were examined with scanning electron microscopy (SEM) and ultraviolet-visible (UV-VIS) spectroscopy. The study aimed to establish the toxicity profile of a starch-chitosan bionanocomposite integrated with ZnS and CdS quantum dots. Cytotoxic and genotoxic features were assessed through cytogenetic instability assessments, consisting of the alkaline comet assay, erythrocyte micronucleus assay, and peripheral blood cell viability analysis of a laboratory mouse model.

Published

2023

2. Carbon Dots-Types, Obtaining and Application in Biotechnology and Food Technology.

Author

Szczepankowska J, Khachatryan G, Khachatryan K, and Krystyjan M

Subjects

Drug Delivery Systems, Biotechnology, Food Technology, Carbon chemistry, Quantum Dots chemistry

Abstract

Materials with a "nano" structure are increasingly used in medicine and biotechnology as drug delivery systems, bioimaging agents or biosensors in the monitoring of toxic substances, heavy metals and environmental variations. Furthermore, in the food industry, they have found applications as detectors of food adulteration, microbial contamination and even in packaging for monitoring product freshness. Carbon dots (CDs) as materials with broad as well as unprecedented possibilities could revolutionize the economy, if only their synthesis was based on low-cost natural sources. So far, a number of studies point to the positive possibilities of obtaining CDs from natural sources. This review describes the types of carbon dots and the most important methods of obtaining them. It also focuses on presenting the potential application of carbon dots in biotechnology and food technology.

Published

2023

3. Preparation, Physicochemical, and Cyto- and Genotoxic Characterisation of Polysaccharide Composites Containing Carbon Quantum Dots.

Author

Szczepankowska, Joanna, Woszczak, Liliana, Khachatryan, Gohar, Khachatryan, Karen, Krystyjan, Magdalena, Grzesiakowska-Dul, Anna, Kuchta-Gładysz, Marta, Wojciechowska-Puchałka, Joanna, Hovhannisyan, Armen, and Krzan, Marcel

Subjects

CARBON composites, POLYSACCHARIDES, QUANTUM dots, BIODEGRADABLE plastics, TECHNOLOGICAL innovations, BIODEGRADABLE materials, CHITOSAN

Abstract

Rapid industrial growth is associated with an increase in the production of environmentally harmful waste. A potential solution to significantly reduce pollution is to replace current synthetic materials with readily biodegradable plastics. Moreover, to meet the demands of technological advancements, it is essential to develop materials with unprecedented properties to enhance their functionality. Polysaccharide composites demonstrate significant potential in this regard. Polysaccharides possess exceptional film-forming abilities and are safe for human use, biodegradable, widely available, and easily modifiable. Unfortunately, polysaccharide-based films fall short of meeting all expectations. To address this issue, the current study focused on incorporating carbon quantum dots (CQDs), which are approximately 10 nm in size, into the structure of a starch/chitosan biocomposite at varying concentrations. This modification has improved the mechanical properties of the resulting nanocomposites. The inclusion of nanoparticles led to a slight reduction in solubility and an increase in the swelling degree. The optical characteristics of the obtained films were influenced by the presence of CQDs, and the fluorescence intensity of the nanocomposites changed due to the specific heavy metal ions and amino acids used. Consequently, these nanocomposites show great potential for detecting these compounds. Cellular viability assessments and comet assays confirm that the resulting nanocomposites do not exhibit any cytotoxic properties based on this specific analytic method. The tested nanocomposites with the addition of carbon quantum dots (NC/CD II and NC/CD III) were characterised by greater genotoxicity compared to the negative control. The positive control, the starch/chitosan composite alone, was also characterised by a greater induction of chromatin damage in mouse cells compared to a pure mouse blood sample. [ABSTRACT FROM AUTHOR]

Published

2024

4. The In Vitro Toxicity Profile of ZnS and CdS Quantum Dots in Polysaccharide Carriers (Starch/Chitosan).

Author

Grzesiakowska, Anna, Dzióbek, Magdalena, Kuchta-Gładysz, Marta, Wojciechowska-Puchałka, Joanna, Khachatryan, Karen, Khachatryan, Gohar, and Krystyjan, Magdalena

Subjects

QUANTUM dots, POLYSACCHARIDES, CHITOSAN, ZINC sulfide, ACTIVE food packaging, STARCH, LABORATORY mice

Abstract

Nanocomposites are an emerging technology for ensuring food safety and quality. Their unique properties, attributed to nanoparticle presence, facilitate the development of sophisticated sensors and biosensors for detecting harmful substances, microbial growth, and environmental changes in food products. Smart and/or active food packaging development also benefits from the use of nanocomposites. This packaging, or portions of it, provide active protection for its contents and serve as sensors to promptly, simply, and safely identify any detrimental changes in stored food, without elaborate techniques or analyses. Films made from potato starch and chitosan were produced and quantum dots of zinc sulfide (ZnS) and cadmium sulfide (CdS)were synthesized in them for this study. The presence and dimensions of the QDs (quantum dots) were examined with scanning electron microscopy (SEM) and ultraviolet-visible (UV-VIS) spectroscopy. The study aimed to establish the toxicity profile of a starch–chitosan bionanocomposite integrated with ZnS and CdS quantum dots. Cytotoxic and genotoxic features were assessed through cytogenetic instability assessments, consisting of the alkaline comet assay, erythrocyte micronucleus assay, and peripheral blood cell viability analysis of a laboratory mouse model. [ABSTRACT FROM AUTHOR]

Published

2024

5. Starch based nanocomposites as sensors for heavy metals - detection of Cu2+ and Pb2+ ions.

Author

Khachatryan, Gohar and Khachatryan, Karen

Subjects

*NANOCOMPOSITE materials, *NANOSENSORS, *ANALYSIS of heavy metals, *QUANTUM dots, *STARCH, *PHOTOLUMINESCENCE

Abstract

Inorganic nanocomposites can find application in various branches of industry, including food technology. Quantum dots have already been reported as promising nanosensors for the detection of heavy metal ions in soil, water and food. This study presents novel starch-based nanocomposites containing ZnS quantum dots capped with L-cysteine. The nanocomposites were prepared in form of gels and foils of potato starch with embedded spherical quantum dots sized 10-20 nm. They were characterized using photoluminescence, IR and UV spectra and TEM/SEM photographs. Pb2+ and Cu2+ ions decreased emission intensity of the photoluminescent spectral bands. The described quantum dots have been obtained using a simple, safe and low-cost method. Their properties make them alternative sensors for Pb2+ and Cu2+ ions that could be applied in biotechnology and food technology. [ABSTRACT FROM AUTHOR]

Published

2019

6. Distarch Phosphate as a Matrix for the Generation of Quantum Dots.

Author

Khachatryan, Karen, Khachatryan, Gohar, and Fiedorowicz, Maciej

Subjects

*PHOSPHATES, *QUANTUM dots, *ZINC sulfide, *ADDITION polymerization, *POLYSACCHARIDES, *DIFFERENTIAL scanning calorimetry

Abstract

Generation of ZnS, CdS, CaS and MgS quantum dots (QDs) was attempted in the matrix of distarch phosphate, an anionic polysaccharide. Based on the analysis of FTIR spectra, thermograms and Differential Scanning Calorimetry, interactions of QDS with the matrix could be excluded. On generation of MgS QDs and also, to a certain extent, CaS QDs, hydrolysis of the salts generating these QDs took place. That process had an impact on the partial destruction of the matrix. Molecular weight and radii of gyration of the products showed that the generation of QDs was dependent on the properties of the matrix polysaccharide. The elasticity, plasticity and viscosity of the gels containing QDs were significantly lower than those of plain distarch phosphate. Generally these values changed with time similarly to gels free of QDs. [ABSTRACT FROM AUTHOR]

Published

2016

7. Polysaccharides Composite Materials as Carbon Nanoparticles Carrier.

Author

Krystyjan, Magdalena, Khachatryan, Gohar, Khachatryan, Karen, Krzan, Marcel, Ciesielski, Wojciech, Żarska, Sandra, and Szczepankowska, Joanna

Subjects

*CARBON composites, *COMPOSITE materials, *LIFE sciences, *POLYSACCHARIDES, *NANOPARTICLES, *QUANTUM dots

Abstract

Nanotechnology is a dynamically developing field of science, due to the unique physical, chemical and biological properties of nanomaterials. Innovative structures using nanotechnology have found application in diverse fields: in agricultural and food industries, where they improve the quality and safety of food; in medical and biological sciences; cosmetology; and many other areas of our lives. In this article, a particular attention is focused on carbon nanomaterials, especially graphene, as well as carbon nanotubes and carbon quantum dots that have been successfully used in biotechnology, biomedicine and broadly defined environmental applications. Some properties of carbon nanomaterials prevent their direct use. One example is the difficulty in synthesizing graphene-based materials resulting from the tendency of graphene to aggregate. This results in a limitation of their use in certain fields. Therefore, in order to achieve a wider use and better availability of nanoparticles, they are introduced into matrices, most often polysaccharides with a high hydrophilicity. Such composites can compete with synthetic polymers. For this purpose, the carbon-based nanoparticles in polysaccharides matrices were characterized. The paper presents the progress of ground-breaking research in the field of designing innovative carbon-based nanomaterials, and applications of nanotechnology in diverse fields that are currently being developed is of high interest and shows great innovative potential. [ABSTRACT FROM AUTHOR]

Published

2022

8. The Preparation and Characterization of Quantum Dots in Polysaccharide Carriers (Starch/Chitosan) as Elements of Smart Packaging and Their Impact on the Growth of Microorganisms in Food.

Author

Grzebieniarz, Wiktoria, Nowak, Nikola, Khachatryan, Gohar, Krzan, Marcel, Krystyjan, Magdalena, Kosiński, Jarosław, and Khachatryan, Karen

Subjects

QUANTUM dots, MICROBIAL growth, CHITOSAN, COLORIMETRIC analysis, POULTRY as food, STARCH, EDIBLE coatings

Abstract

Nanocomposite materials are increasingly commonly used to ensure food safety and quality. Thanks to their unique properties, stemming from the presence of nanoparticles, they are used to develop advanced sensors and biosensors, e.g., for various harmful substances, heavy metals, microorganism growth, and environmental changes in food products. The aim of this study is to produce novel films based on natural resources—potato starch and chitosan—incorporating generated quantum dots of zinc sulfide and cadmium sulfide. The biocomposites were subjected to the following assays: FTIR spectroscopy, UV-VIS spectroscopy, photoluminescence spectroscopy, and SEM/TEM spectroscopy. Their mechanical properties were also analyzed, a colorimetric analysis was performed, and the water content, solubility, and water absorption capacity were determined. A storage test was also performed, using poultry meat covered with the produced films, to assess the microbiological quality. The results confirmed the presence of the quantum dots in the starch–chitosan matrix. The unique optical properties of the films were also demonstrated. It was shown that the composites with nanoparticles limited the growth of selected microorganisms in poultry meat. The food storage time was found to have an impact on the fluorescent properties of the composites. The results point to the possibility of using the produced films as active and smart packaging. [ABSTRACT FROM AUTHOR]

Published

2021