Heterostructured nanoparticles have the capability for a broad range of novel and enhanced properties, which leads to appealing biomedical and environmental applications.
Heterostructured nanoparticles have the capability for a broad range of novel and enhanced properties, which leads to appealing biomedical and environmental applications.
Surender K. Sharma obtained his Ph.D. degree from H. P. University, Shimla, India. After spending several years in research/teaching positions in Brazil, France, Czech Republic, India and Mexico working in the area of nanomagnetism and functional nanomaterials, he has joined Federal University of Maranhão, Brazil, as a Professor of the Department of Physics. He is actively involved in research, teaching, and supervising students. He was awarded FAPEMA Senior Researcher grants, and has published more than 74 research articles in reputed journals/proceedings, 5 books as a single author, 5 book chapters and has been active in professional organizations.
Inhaltsangabe
1. Controlled Wet Chemical Synthesis of Multifunctional Nanomaterials: Current Status and Future Possibility 2. Probing Crucial Interfacial Dynamics of Nanohybrids for Emerging Functionalities 3. Multi-Functional Nanomaterials for Biomedical Applications 4. Diagnostics and Therapy Based on Photo-Activated Nanoparticles 5. Solid-Lipid Hybrid Nanostructures and Their Biomedical Applications 6. Hybrid Manganese Spinel Ferrite Nanostructures: Synthesis, Functionalization and Biomedical Applications 7. TiO2 Based Nano-Hybrids for Energy and Environmental Applications 8. Progress of Nanomaterials Application in Environmental Concerns 9. Probing Crucial Interfacial Dynamics of Nanohybrids for Emerging Functionalities 10. Nanohybrid Graphene Oxide for Advanced Wastewater Treatment 11. Titanium Dioxide Based Nanohybrids as Photocatalyst for Removal and Degradation of Industrial Contaminants 12. Dendrimer-Based Hybrid Nanomaterials for Water Remediation: Adsorption of Inorganic Contaminants 13. Carbonaceous and Polysaccharides Based Nanomaterials: Synthesis, and Their Importance in Environmental Applications 14. Role of Nanoclay Polymers in Agriculture: Applications and Perspectives
1. Controlled Wet Chemical Synthesis of Multifunctional Nanomaterials: Current Status and Future Possibility 2. Probing Crucial Interfacial Dynamics of Nanohybrids for Emerging Functionalities 3. Multi-Functional Nanomaterials for Biomedical Applications 4. Diagnostics and Therapy Based on Photo-Activated Nanoparticles 5. Solid-Lipid Hybrid Nanostructures and Their Biomedical Applications 6. Hybrid Manganese Spinel Ferrite Nanostructures: Synthesis, Functionalization and Biomedical Applications 7. TiO2 Based Nano-Hybrids for Energy and Environmental Applications 8. Progress of Nanomaterials Application in Environmental Concerns 9. Probing Crucial Interfacial Dynamics of Nanohybrids for Emerging Functionalities 10. Nanohybrid Graphene Oxide for Advanced Wastewater Treatment 11. Titanium Dioxide Based Nanohybrids as Photocatalyst for Removal and Degradation of Industrial Contaminants 12. Dendrimer-Based Hybrid Nanomaterials for Water Remediation: Adsorption of Inorganic Contaminants 13. Carbonaceous and Polysaccharides Based Nanomaterials: Synthesis, and Their Importance in Environmental Applications 14. Role of Nanoclay Polymers in Agriculture: Applications and Perspectives
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