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Industrial applications of nanocrystals / edited by Shadpour Mallakpour and Chaudhery Mustansar Hussain.

Contributor(s): Mallakpour, Shadpour Esteleky, 1953- | Hussain, Chaudhery Mustansar.
Material type: materialTypeLabelBookSeries: Micro & nano technologies: Publisher: Amsterdam : Elsevier, 2022Description: 1 online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9780128242599; 0128242590.Subject(s): Nanocrystals | Nanotechnology | Nanocrystals | NanotechnologyAdditional physical formats: Print version:: No title; Print version:: No title; Print version:: INDUSTRIAL APPLICATIONS OF NANOCRYSTALS.DDC classification: 620.115 Online resources: ScienceDirect
Contents:
<B>Section I -- Nanomanufacturing: large-scale synthesis of nanocrystals</b> <p>1. Photonic crystal fibers for various sensing applications</p> <p>2. An overview of nanomaterial-enhanced miniaturized/microfluidic devices for electrochemical sensing</p> <p>3. Approaches for synthesis of nanocrytals: an overview</p> <p>4. Green synthesized nano-functionalized material</p> <p>5. Biological and chemical impact of nanocellulose: current understanding</p> <p><b>Section II -- Pharmaceutical industry</b></p> <p>6. Recent trends in nanocrystals for pharmaceutical applications</p> <p>7. Drug nanocrystals: emerging trends in pharmaceutical industries</p> <p><b>Section III -- Biomedical industry</b></p> <p>8. Colloidal as nanocrystals for biomedical applications</p> <p><b>Section IV -- Environmental industry</b></p> <p>9. Environmental applications of MnO2 nanocrystals and their derivatives: from lab to real-time utilization</p> <p><b>Section V -- Drug delivery</b></p> <p>10. Drug nanocrystals as drug delivery systems</p> <p>11. Drug nanocrystals as nanocarrier-based drug delivery systems</p> <p>12. Gold nanocarriers in tumor diagnosis, imaging, drug delivery, and therapy</p> <p><b>Section VI -- Catalysis</b></p> <p>13. Zinc oxide-decorated graphene oxide nanocomposites for industrial volatile organic compound chemical sensor applications</p> <p>14. Shape-controlled synthesis of aqueous-based metallic nanocrystals and their catalytic applications</p> <p>15. Sustainable catalysis of nanocrystals: A green technology</p> <p><b>Section VII -- Antibacterial and antifungal coatings</b></p> <p>16. Application of nanocrystals as antimicrobials</p> <p>17. The antimicrobial activities of some selected polysaccharide nanocrystals and their hybrids: synthesis and applications</p> <p>18. Applications of biogenic silver nanocrystals or nanoparticles as bactericide and fungicide</p> <p>19. Crystalline nanomaterials for antimicrobial applications</p> <p><b>Section VIII -- Electronics and energy industry</b></p> <p>20. Applications of nanocrystals for antimicrobials </p> <p>21. Selected copper-based nanocomposite catalysts for CO2 reduction</p> <p>22. Nanocrystals for electrochemical energy storage devices</p> <p>23. Nanoscience and its role in the future of solar stills</p> <p><b>Section IX -- Conclusion</b></p> <p>24. Green carbon quantum dots: eco-friendly and sustainable synthetic approaches to nanocrystals</p> <p>25. Metal nanoparticles for catalytic hydrogenation reactions</p>
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<B>Section I -- Nanomanufacturing: large-scale synthesis of nanocrystals</b> <p>1. Photonic crystal fibers for various sensing applications</p> <p>2. An overview of nanomaterial-enhanced miniaturized/microfluidic devices for electrochemical sensing</p> <p>3. Approaches for synthesis of nanocrytals: an overview</p> <p>4. Green synthesized nano-functionalized material</p> <p>5. Biological and chemical impact of nanocellulose: current understanding</p> <p><b>Section II -- Pharmaceutical industry</b></p> <p>6. Recent trends in nanocrystals for pharmaceutical applications</p> <p>7. Drug nanocrystals: emerging trends in pharmaceutical industries</p> <p><b>Section III -- Biomedical industry</b></p> <p>8. Colloidal as nanocrystals for biomedical applications</p> <p><b>Section IV -- Environmental industry</b></p> <p>9. Environmental applications of MnO2 nanocrystals and their derivatives: from lab to real-time utilization</p> <p><b>Section V -- Drug delivery</b></p> <p>10. Drug nanocrystals as drug delivery systems</p> <p>11. Drug nanocrystals as nanocarrier-based drug delivery systems</p> <p>12. Gold nanocarriers in tumor diagnosis, imaging, drug delivery, and therapy</p> <p><b>Section VI -- Catalysis</b></p> <p>13. Zinc oxide-decorated graphene oxide nanocomposites for industrial volatile organic compound chemical sensor applications</p> <p>14. Shape-controlled synthesis of aqueous-based metallic nanocrystals and their catalytic applications</p> <p>15. Sustainable catalysis of nanocrystals: A green technology</p> <p><b>Section VII -- Antibacterial and antifungal coatings</b></p> <p>16. Application of nanocrystals as antimicrobials</p> <p>17. The antimicrobial activities of some selected polysaccharide nanocrystals and their hybrids: synthesis and applications</p> <p>18. Applications of biogenic silver nanocrystals or nanoparticles as bactericide and fungicide</p> <p>19. Crystalline nanomaterials for antimicrobial applications</p> <p><b>Section VIII -- Electronics and energy industry</b></p> <p>20. Applications of nanocrystals for antimicrobials </p> <p>21. Selected copper-based nanocomposite catalysts for CO2 reduction</p> <p>22. Nanocrystals for electrochemical energy storage devices</p> <p>23. Nanoscience and its role in the future of solar stills</p> <p><b>Section IX -- Conclusion</b></p> <p>24. Green carbon quantum dots: eco-friendly and sustainable synthetic approaches to nanocrystals</p> <p>25. Metal nanoparticles for catalytic hydrogenation reactions</p>

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