fatemeh khakpour

Adding copper nanoparticles and rosemary essential oil can improve the structural and mechanical properties of films based on fenugreek seed mucilage and eggplant skin powder. The aim of this study was to prepare edible films based on mucilage of fenugreek seeds and eggplant skin powder containing copper nanoparticles (0, 2, 4% w/w) and rosemary essential oil (0, 4, 8% w/v). Edible films were prepared based on mucilage of fenugreek seeds and eggplant peel powder, and copper nanoparticles (0, 2, 4%) and rosemary essential oil (0, 4, 8%) were added to it. The structural and mechanical properties of the prepared films were investigated. According to the obtained results, increasing the amount of copper nanoparticles and rosemary essential oil in the film decreased the mechanical properties of the films. According to the obtained results, increasing the amount of copper nanoparticles and rosemary essential oil in the film decreased the mechanical texture of the films. X-ray diffraction (XRD) analysis showed that copper nanoparticles were physically combined with fenugreek seed mucilage polymer and eggplant skin powder, resulting in the strengthening of the crystal structure. Fourier transform infrared (FTIR) results confirmed the physical presence of copper nanoparticles in the polymer matrix. The results of the scanning electron microscope (SEM) showed that the surface morphology of the nanocomposite film is heterogeneous compared to fenugreek seed mucilage and eggplant skin powder. Exposure of the prepared detector film to different pHs led to the change of the color of the films from red to yellow. These color changes of the films were consistent with the color changes of the anthocyanin solution. The addition of copper nanoparticles and rosemary essential oil to edible films based on fenugreek seed mucilage and eggplant skin powder improved the Fourier transform infrared (FTIR) of the films, and also weakened the mechanical properties.

The aim of this research was to produce a film based on mucilage of the flower of Paneerak modified with licorice root and copper sulfate nanoparticles. The D-optimal statistical scheme was used to study the antioxidant, antimicrobial, X-ray diffraction (XRD), Fourier transform infrared (FTIR), scanning electron microscopy (SEM), and thermal decomposition (DSC) properties of the films. The results showed that with the increase of licorice and copper sulfate nanoparticles, the antioxidant activity of the film increases significantly (p<0.05). The results of the antimicrobial activity of the prepared films showed that the addition of licorice and copper sulfate nanoparticles caused the antimicrobial activity of the film against Escherichia coli and Staphylococcus aureus. X-ray diffraction analysis shows that copper sulfate nanoparticles are physically combined with the mucilage polymer of Paneerak flower and it reduces the crystal structure. The results of Fourier transform infrared (FTIR) confirm the physical presence of copper sulfate nanoparticles in the polymer matrix and have electrostatic interaction with the polymer network. The results of the scanning electron microscope (SEM) show that the surface of films containing licorice root copper sulfate nanoparticles are more heterogeneous than the mucilage of Paneerak flower. Licorice and copper sulfate nanoparticles were able to delay the thermal decomposition of the mucilage of Paneerak flower and increase the thermal stability of the mucilage film.

Addition of nanoparticles of copper sulfate and licorice root to edible films based on mucilage of Paneerak flower improved antimicrobial, antioxidant, DSC and SEM.

adding Smyrnium cordifolium nanoparticles and milk thistle essential oil can improve the physicochemical properties of films based on alfalfa seed mucilage.

The purpose of this study was to prepare edible films from alfalfa seed mucilage with Smyrnium cordifolium nanoparticles (0, 2, 4%) and milk thistle essential oil (0, 1, 2%).

Edible films based on alfalfa seed mucilage were prepared and Smyrnium cordifolium nanoparticles (0, 2, 4%) and milk thistle essential oil (0, 1, 2%) were added to it. The physicochemical properties of the prepared films were investigated.

According to the obtained results, increasing the amount of Smyrnium cordifolium nanoparticles and milk thistle essential oil in the film decreased the mechanical properties of the films. The results of antimicrobial activity showed that the addition of Smyrnium cordifolium nanoparticles increased the activity of the film against Staphylococcus aureus. The dynamic light scattering (DLS) results confirmed the Smyrnium cordifolium nanoparticles. Fourier transform infrared (FTIR) results confirmed the physical presence of Smyrnium cordifolium nanoparticles in the polymer matrix. The increase of Smyrnium cordifolium nanoparticles and milk thistle essential oil in the films could delay the thermal decomposition of alfalfa seed mucilage and increase the thermal stability of the mucilage film.

Adding Smyrnium cordifolium nanoparticles and milk thistle essential oil to edible films based on alfalfa seed mucilage improved the antimicrobial, Fourier infrared (FTIR) properties of the films, and also weakened the mechanical properties.

In this study, mucilage was extracted from fenugreek seeds and essential oil from rosemary. The composite film of fenugreek seed mucilage and eggplant peel powder was prepared with copper nanoparticles (0, 2, 4%) and rosemary essential oil (0, 4, 8%). The physicochemical properties of the prepared films were investigated. According to the obtained results, with the increase of copper nanoparticles and rosemary essential oil, the thickness and antioxidant of the film increases. Humidity, water vapor permeability and solubility of the film decrease with the increase of copper nanoparticles and rosemary essential oil. Also, with the increase of copper nanoparticles and rosemary essential oil, the L* color indices increased and the brightness of the layers decreased significantly. Also, with the increase of copper nanoparticles, the color indices a* increased, but b* decreased. Also, with the increase of rosemary essential oil, the a* color indices have decreased, but the b* factor has increased. The results of antimicrobial activity showed that the addition of copper nanoparticles and rosemary essential oil made the film active against Staphylococcus aureus.

The addition of copper nanoparticles and rosemary essential oil to edible films based on fenugreek seed mucilage and eggplant skin powder improved the thickness and antioxidant, solubility, moisture and permeability to water vapor, as well as weakening the brightness.

The aim of this research was to produce a film based on alfalfa seed mucilage with avondol nanoparticles and milk thistle oil. A composite film of alfalfa seed mucilage with avondol nanoparticles (0, 2, 4%) and milk thistle seed oil (0, 1, 2%) was prepared. . The physicochemical properties of the prepared films were investigated. According to the obtained results, adding Avondol nanoparticles and milk thistle seed oil increases the thickness and antioxidant. But increasing the amount of Avondol nanoparticles and milk thistle essential oil in the film decreased the humidity, solubility and water vapor permeability of the films. X-ray diffraction analysis showed that the Avondol nanoparticles were physically incorporated with alfalfa seed mucilage polymer. The results of scanning electron microscope (SEM) showed that the surface morphology of nanocomposite film is heterogeneous compared to alfalfa seed mucilage. Finally, based on the results, adding avondol nanoparticles and milk thistle oil to edible films based on alfalfa seed mucilage improved the thickness, antioxidant and SEM, but weakened the moisture, solubility and permeability to water vapor.

The aim of this research was to produce a film from the mucilage of Paneerak flower modified with Shirin-Bian and copper sulfate nanoparticles. It was used to study the properties of thickness, humidity, solubility, permeability to water vapor, color and mechanical properties of the films. The results show that with the increase of licorice and copper sulfate nanoparticles, the thickness of the film increases. Humidity, water vapor permeability and solubility of the film decrease with the increase of copper sulfate nanoparticles and increase with the increase of sodium chloride. Also, with an increase in the concentration of Shirin Bayan, the color indices a* increased and the brightness of the layers decreased significantly. The results of the mechanical test show that with the increase of sugar and copper sulfate nanoparticles, the tensile strength decreases and with the increase of copper sulfate nanoparticles, the elongation at the breaking point increases significantly.