Nano-Engineering at Functional Interfaces for Multidisciplinary Applications
portes grátis
Nano-Engineering at Functional Interfaces for Multidisciplinary Applications
Electrochemistry, Photoplasmonics, Antimicrobials, and Anticancer Applications
Reddy, Narendra; Ramamurthy, Sai Sathish; Bhaskar, Seemesh
Elsevier - Health Sciences Division
10/2024
642
Mole
9780443216916
15 a 20 dias
Descrição não disponível.
1. Utility of nanoengineering for multidisciplinary applications
2. Overview of nanoengineering: synthesis, classification, characterization, functionality, and applications
3. Nanoengineering at functional plasmonic interfaces
4. Nanoengineering for gap-enhanced Raman tags and related plasmonic applications
5. Surface plasmon resonance waveguides and their applications: insights from functional metal-dielectric-metal interfaces
6. Nano-engineering at functional photonic crystal interfaces
7. Nano-engineering metasurfaces for myriad photonic applications
8. Nanoengineering light-emitting materials for sensing applications
9. Nano-engineering of functional metasurfaces by template-assisted self-assembly
10. Laser fabrication: a flexible nanoengineering approach towards plasmonics, anticancer, and sensing applications
11. Nano-engineering at functional interfaces in electrocatalysts and field-induced electrocatalyst
12. Nanoengineering low-dimensional materials for energy harvesting
13. Nano-engineering strategies for high-performance batteries and capacitors
14. Nanoengineering of materials for the chemiresistive sensing of volatile organic compounds
15. Nanoengineering of solution processed metal oxide interfacial layers for perovskite solar cells: impact on device performance and stability
16. Nanoengineering for antimicrobial applications
17. Green nanomaterials for antimicrobial and anticancer applications
18. Engineering advanced functional nanomaterials for virus detection
19. Nanoscale engineering for biomedical applications
20. Nano-engineering approaches for food analysis and related biosensing applications
21. Nanofunctional finishes fortextile applications
22. Nanoengineering via green technology for translational research
23. Future perspectives and research directions: technological advances and novel applications of nanostructures
2. Overview of nanoengineering: synthesis, classification, characterization, functionality, and applications
3. Nanoengineering at functional plasmonic interfaces
4. Nanoengineering for gap-enhanced Raman tags and related plasmonic applications
5. Surface plasmon resonance waveguides and their applications: insights from functional metal-dielectric-metal interfaces
6. Nano-engineering at functional photonic crystal interfaces
7. Nano-engineering metasurfaces for myriad photonic applications
8. Nanoengineering light-emitting materials for sensing applications
9. Nano-engineering of functional metasurfaces by template-assisted self-assembly
10. Laser fabrication: a flexible nanoengineering approach towards plasmonics, anticancer, and sensing applications
11. Nano-engineering at functional interfaces in electrocatalysts and field-induced electrocatalyst
12. Nanoengineering low-dimensional materials for energy harvesting
13. Nano-engineering strategies for high-performance batteries and capacitors
14. Nanoengineering of materials for the chemiresistive sensing of volatile organic compounds
15. Nanoengineering of solution processed metal oxide interfacial layers for perovskite solar cells: impact on device performance and stability
16. Nanoengineering for antimicrobial applications
17. Green nanomaterials for antimicrobial and anticancer applications
18. Engineering advanced functional nanomaterials for virus detection
19. Nanoscale engineering for biomedical applications
20. Nano-engineering approaches for food analysis and related biosensing applications
21. Nanofunctional finishes fortextile applications
22. Nanoengineering via green technology for translational research
23. Future perspectives and research directions: technological advances and novel applications of nanostructures
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Amplified spontaneous emission; Analytical chemistry analysis; Anticancer; Antimicrobial; Application; Applications; BIAN-based materials; Bacteria; Basics of battery; Beam focusing; Beam shaping; Biochemistry applications; Bioengineering; Biomarker detection; Biosensing; Biosensor; Boron-based materials; Breast carcinoma; Cancer treatment; Catalytic overlayer; Chemical reactions in materials science; Chemiresistive sensor; Chitosan; Chitosan coatings; Core-shell particle; Crystal structure; DNA nanotechnology; Deep Raman spectroscopy; Device performance; Device stability; Device type; Diffraction; Dipoles; Drug delivery; Drug delivery system; Drug development; Eco-friendly; Electrical materials; Electrical property; Electrocatalysts; Electrochemical energy conversion; Electrochemistry; Electrode material design; Electrolyte design; Electronic engineering; Electronics; Energy storage; Energy systems; Energy types; Engineering; Experimental approach in biochemistry; Fabrication; Food safety; Food science; Functional textiles; Future perspective; Gas sensing; Guided-mode resonance; Hybrid; Infectious disease; Inorganic metal oxides; Inorganic nanomaterial; Interface science; Interfacial layers; Interference lithography; Laser ablation; Laser interference; Laser processing; Lasing; Light field generation; Light field manipulation; Lithium-ion battery; Lithography; Localized SPR; Localized surface plasmon resonance; Magnetoelectrocatalysts; Materials application; Materials characterization; Materials chemistry; Materials class; Materials in biotechnology; Materials processing; Materials property; Materials property type; Materials science; Materials science engineering; Materials structure; Materials synthesis; Medical science; Metal oxide semiconductors; Metal-dielectric nanohybrids; Metal-dielectric-metal; Metallic nanoparticles; Metasurface; Molecular junction; Molecularly imprinted polymers; Multidisciplinary; Nano-engineering; Nanoengineering; Nanogenerators
1. Utility of nanoengineering for multidisciplinary applications
2. Overview of nanoengineering: synthesis, classification, characterization, functionality, and applications
3. Nanoengineering at functional plasmonic interfaces
4. Nanoengineering for gap-enhanced Raman tags and related plasmonic applications
5. Surface plasmon resonance waveguides and their applications: insights from functional metal-dielectric-metal interfaces
6. Nano-engineering at functional photonic crystal interfaces
7. Nano-engineering metasurfaces for myriad photonic applications
8. Nanoengineering light-emitting materials for sensing applications
9. Nano-engineering of functional metasurfaces by template-assisted self-assembly
10. Laser fabrication: a flexible nanoengineering approach towards plasmonics, anticancer, and sensing applications
11. Nano-engineering at functional interfaces in electrocatalysts and field-induced electrocatalyst
12. Nanoengineering low-dimensional materials for energy harvesting
13. Nano-engineering strategies for high-performance batteries and capacitors
14. Nanoengineering of materials for the chemiresistive sensing of volatile organic compounds
15. Nanoengineering of solution processed metal oxide interfacial layers for perovskite solar cells: impact on device performance and stability
16. Nanoengineering for antimicrobial applications
17. Green nanomaterials for antimicrobial and anticancer applications
18. Engineering advanced functional nanomaterials for virus detection
19. Nanoscale engineering for biomedical applications
20. Nano-engineering approaches for food analysis and related biosensing applications
21. Nanofunctional finishes fortextile applications
22. Nanoengineering via green technology for translational research
23. Future perspectives and research directions: technological advances and novel applications of nanostructures
2. Overview of nanoengineering: synthesis, classification, characterization, functionality, and applications
3. Nanoengineering at functional plasmonic interfaces
4. Nanoengineering for gap-enhanced Raman tags and related plasmonic applications
5. Surface plasmon resonance waveguides and their applications: insights from functional metal-dielectric-metal interfaces
6. Nano-engineering at functional photonic crystal interfaces
7. Nano-engineering metasurfaces for myriad photonic applications
8. Nanoengineering light-emitting materials for sensing applications
9. Nano-engineering of functional metasurfaces by template-assisted self-assembly
10. Laser fabrication: a flexible nanoengineering approach towards plasmonics, anticancer, and sensing applications
11. Nano-engineering at functional interfaces in electrocatalysts and field-induced electrocatalyst
12. Nanoengineering low-dimensional materials for energy harvesting
13. Nano-engineering strategies for high-performance batteries and capacitors
14. Nanoengineering of materials for the chemiresistive sensing of volatile organic compounds
15. Nanoengineering of solution processed metal oxide interfacial layers for perovskite solar cells: impact on device performance and stability
16. Nanoengineering for antimicrobial applications
17. Green nanomaterials for antimicrobial and anticancer applications
18. Engineering advanced functional nanomaterials for virus detection
19. Nanoscale engineering for biomedical applications
20. Nano-engineering approaches for food analysis and related biosensing applications
21. Nanofunctional finishes fortextile applications
22. Nanoengineering via green technology for translational research
23. Future perspectives and research directions: technological advances and novel applications of nanostructures
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Amplified spontaneous emission; Analytical chemistry analysis; Anticancer; Antimicrobial; Application; Applications; BIAN-based materials; Bacteria; Basics of battery; Beam focusing; Beam shaping; Biochemistry applications; Bioengineering; Biomarker detection; Biosensing; Biosensor; Boron-based materials; Breast carcinoma; Cancer treatment; Catalytic overlayer; Chemical reactions in materials science; Chemiresistive sensor; Chitosan; Chitosan coatings; Core-shell particle; Crystal structure; DNA nanotechnology; Deep Raman spectroscopy; Device performance; Device stability; Device type; Diffraction; Dipoles; Drug delivery; Drug delivery system; Drug development; Eco-friendly; Electrical materials; Electrical property; Electrocatalysts; Electrochemical energy conversion; Electrochemistry; Electrode material design; Electrolyte design; Electronic engineering; Electronics; Energy storage; Energy systems; Energy types; Engineering; Experimental approach in biochemistry; Fabrication; Food safety; Food science; Functional textiles; Future perspective; Gas sensing; Guided-mode resonance; Hybrid; Infectious disease; Inorganic metal oxides; Inorganic nanomaterial; Interface science; Interfacial layers; Interference lithography; Laser ablation; Laser interference; Laser processing; Lasing; Light field generation; Light field manipulation; Lithium-ion battery; Lithography; Localized SPR; Localized surface plasmon resonance; Magnetoelectrocatalysts; Materials application; Materials characterization; Materials chemistry; Materials class; Materials in biotechnology; Materials processing; Materials property; Materials property type; Materials science; Materials science engineering; Materials structure; Materials synthesis; Medical science; Metal oxide semiconductors; Metal-dielectric nanohybrids; Metal-dielectric-metal; Metallic nanoparticles; Metasurface; Molecular junction; Molecularly imprinted polymers; Multidisciplinary; Nano-engineering; Nanoengineering; Nanogenerators
