Nano-Engineering at Functional Interfaces for Multidisciplinary Applications

1. Utility of nanoengineering for multidisciplinary applications2. Overview of nanoengineering: synthesis, classification, characterization, functionality, and applications3. Nanoengineering at functional plasmonic interfaces4. Nanoengineering for gap-enhanced Raman tags and related plasmonic applications5. Surface plasmon resonance waveguides and their applications: insights from functional metal-dielectric-metal interfaces6. Nano-engineering at functional photonic crystal interfaces7. Nano-engineering metasurfaces for myriad photonic applications8. Nanoengineering light-emitting materials for sensing applications9. Nano-engineering of functional metasurfaces by template-assisted self-assembly10. Laser fabrication: a flexible nanoengineering approach towards plasmonics, anticancer, and sensing applications11. Nano-engineering at functional interfaces in electrocatalysts and field-induced electrocatalyst12. Nanoengineering low-dimensional materials for energy harvesting13. Nano-engineering strategies for high-performance batteries and capacitors14. Nanoengineering of materials for the chemiresistive sensing of volatile organic compounds15. Nanoengineering of solution processed metal oxide interfacial layers for perovskite solar cells: impact on device performance and stability16. Nanoengineering for antimicrobial applications17. Green nanomaterials for antimicrobial and anticancer applications18. Engineering advanced functional nanomaterials for virus detection19. Nanoscale engineering for biomedical applications20. Nano-engineering approaches for food analysis and related biosensing applications21. Nanofunctional finishes fortextile applications22. Nanoengineering via green technology for translational research23. Future perspectives and research directions: technological advances and novel applications of nanostructures