ADVANCES IN SYNTHESIS AND CHARACTERIZATION OF NANOSTRUCTURED MATERIALS FOR ENHANCED FUNCTIONAL PERFORMANCE
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Abstract
The main advances in nanostructured materials research from 1996 through 2025. This study lays out how controlled nanoscale design has really improved functional performance, showing it all chronologically, year by year, clearly outlined for you to see. Some systems are highlighted as representative nanomaterial, Nanostructure type, Dominant synthesis method, key characterization techniques. Main functional property: improved, Primary application area, Research Trend / Milestone. The first observation was shown in simple carbon-based nanomaterials such as fullerenes and carbon nanotubes. By the time it is updated a variety of synthesis methods like mechanical exfoliation, Sol-Gel, hydrothermal techniques, Chemical vapor deposition - were developed. These methods made it possible to smoothly control the size, shape, and surface properties of nanomaterials, opening the door to efficient applications. The development of nano materials research is marked by a transition from single-function materials to multi-functional and hybrid nanostructures in environmental remediation, healthcare, and smart systems. In recent years, with data- driven design, artificial intelligence has accelerated material perfection and application-specific performance improvement. Overall, the 30-year trend analysis emphasizes the critical role of the synthesis of property relationships. The insights presented provide a complete perspective on past achievements for future research aimed at next- generation functional nanomaterials.
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Publication Details
- Type of Publication:
- Conference Name: International Conference on Physics 2026
- Date of Conference: 04/09/2026 - 04/09/2026
- Venue: Department of Physics, University of Dhaka
- Organizer: Bangladesh Physical Society