声明
1. Introduction
1.1Aims and Objectives
2.Review of literature
2.1 Nanotechnology
2.2 Nanoparticle
2.3 Importance of Being Nano
2.4 Classification of Nanoparticles
2.5 AgNPs
2.6Need and Importance of Green Synthesis of AgNPs
2.7 Synthesis of AgNPs
2.8 Biosynthesis of AgNPs
2.8.1 Plants-induced AgNPs Synthesis
2.8.2 Fungus-induced Synthesis of AgNPs
2.8.3 Algae in AgNPs synthesis
2.8.4 Bacterial-induced Green Synthesis of AgNPs
2.8.5 Mechanism of Synthesis
2.9. Why Silver?
2.10. Antimicrobial activity of AgNPs
2.11. Factors Effecting AgNPs Synthesis
2.12. Applications of AgNPs
2.12.1 Application in Nutrient Delivery
2.12.2 Application as Biocide
2.12.3 Application as Milk
2.12.4 Application as Veterinary Medicine
2.12.5 Application in Reproduction
2.12.5 Application as Meat and Egg
3.Material and method
3.1 Sampling Site
3.2 Isolation of Microbes
3.3. Screening for AgNPs Synthesis
3.4. Molecular Characterization of Isolate
3.5. Phylogenetic Analysis
3.6. AgNPs Biosynthesis
3.7. Optimization of Physical Parameter
3.8. Characterization of AgNPs
3.8.1. X-Ray diffraction (XRD)
3.8.2. Scanning Electron Microscopy (SEM)
3.8.3. Fourier Transform Infrared Spectroscopy (FTIR)
3.9. Biomedical Applications of AgNPs
3.9.1. Adsorption of AgNPs onto Bandages
3.9.2. Synergistic Effect of AgNPs
4. Results
4.1. Isolation of Microbes
4.2. AgNPs Biosynthesis
4.3. Optimization of Parametersfor AgNPs synthesis
4.4. Characterization of AgNPs
4.4.1. X-Ray diffraction (XRD)
3.4.2. Scanning Electron Microscopy (SEM)
4.4.3. FTIR Spectroscopy Analysis
4.4.4. Antibacterial Activities of AgNPs
4.4.5. Antibacterial Activities of AgNPs onto Bandage
4.4.6. Synergistic Effect of AgNPs with Antibiotics
5. Discussion
Conclusion and Future prospects
Conclusion
Future prospects
致谢
Summary
参考文献
Achievements