| Titre : | Nanomaterials extracted from the basil plant and their exploitation pharmaceutical preparation |
| Auteurs : | Widad BEN DAGGA, Auteur ; Oum Kelthoum Kribaa, Directeur de thèse ; Foughalia Abdelhamid, Directeur de thèse ; NASSIRA TOURTA, Directeur de thèse |
| Editeur : | Biskra [Algérie] : Faculté des Sciences Exactes et des Sciences de la Nature et de la Vie, Université Mohamed Khider, 2025 |
| Format : | 1VOL.(48p) / ill.couv.ill.en coul / 30cm |
| Langues: | Anglais |
| Langues originales: | Anglais |
| Résumé : |
The study explored the utilization of nanomaterials extracted from the basil plant in pharmaceutical applications by producing metallic oxides, including calcium oxide (CaO), zinc oxide (ZnO), and their combination (ZnO/CaO), using thermal conversion (calcination). The aim was to analyze the structural, chemical, and physical properties of the produced materials, evaluate their antibacterial and antioxidant activities, and examine the effect of different calcination temperatures. Additionally, a theoretical study was conducted to predict the interaction between zinc oxide and the drug loperamide. This study highlights the promising potential of nanomaterials derived from natural sources, such as basil, as natural-origin antioxidants, paving the way for new therapeutic and pharmaceutical applications. However, further optimization of production methods and enhancement of the biological activity of these materials are needed. |
| Sommaire : |
I.1. Introduction I.2. Proximal, Nutritional, And Phytochemical Composition of Basil Plant I.3.Total antioxidant capacity I.4. Effects of myrtle on Human health I.5. Definition of nanomaterials I.6. Classification I.7.Properties of nanomaterials I.8. Nanotechnology I.9. Metal Oxide Nanomaterial I.10. Zinc Oxide (ZnO) I.11. Properties of ZnO I.12. Calcium Oxide (CaO) I.13. Properties of CaO METHODOLOGY II.1.The steps to obtain a basil extract II. .2 Protocol for Extracting Myrtle Plant Extract II.3. Purpose II.4. Preparation of Oxides II.5. Antioxidant activity II.6. Antibacterial activity CHARACTERIZATION TECHNIAUES II.7. UV-Vis Spectroscopy II.8. Infrared Spectroscopy II.9. Scanning Electron Microscopy (SEM) II.10.X-ray diffraction (XRD) Ⅲ.1. Definition Ⅲ.2. Understanding Diarrhea Symptoms in Adults and Children: Differences and Similarities Ⅲ.3.Understanding Different Types of Diarrhea: Causes and Characteristics Ⅲ.4.Common Causes of Diarrhea Ⅲ.5.Understanding the Severity and Long-Term Implications of Diarrhea in Adults and children: Risks, Complications, and Management Strategies Ⅲ.6.Comprehensive Overview of Loperamide Hydrochloride: Medical Uses, Chemical Properties, and Dosage Guidelines Ⅲ.7.Benefits of Combining Loperamide and Zinc Oxide in Diarrhea Treatment: Symptom Improvement, Accelerated Recovery, and Reduced Intestinal Irritation Ⅲ.8. Results and interpretations of the theoretical study Ⅳ.1. Structural Study by X-ray Diffraction Ⅳ.2. Spectroscopic study by IRTF Ⅳ.3. Spectroscopic study by UV-VIS Ⅳ.4. Morphological study by Scanning Electron Microscopy (SEM) Ⅳ.5. Energy Dispersive X-Ray Analysis (EDX) Ⅳ.6. Results of antibacterial and antioxidant activity GENERALE CONCLUSION BIBLIOGRAPHIC REFERENCES |
| Type de document : | Mémoire master |
Disponibilité (1)
| Cote | Support | Localisation | Statut |
|---|---|---|---|
| MCH/695 | Mémoire master | bibliothèque sciences exactes | Consultable |
