Zpět
Recent advances in nanostructured boron nitride based flame retardant composites: A comprehensive review
| Citace: |
JAYAN, DK.; DESHMUKH, KAR. Recent advances in nanostructured boron nitride based flame retardant composites: A comprehensive review. Sustainable Materials and Technologies, 2026, roč. 47, č. APR 15 2026, s. nestránkováno. ISSN 2214-9937.
|
|---|---|
| Druh: | ČLÁNEK |
| Jazyk publikace: | eng |
| Anglický název: | Recent advances in nanostructured boron nitride based flame retardant composites: A comprehensive review |
| Rok vydání: | 2026 |
| Autoři: | Deepthi K. Jayan , Dr. Kalim Abdul Rashid Deshmukh |
| Abstrakt EN: | With formerly unattainable control over material properties at the nanoscale, nanotechnology has emerged as a paradigm shift in materials research. Given the increasing demand for fire-resistant materials in industries, the use of nanomaterials in flame-retardant composites has garnered significant attention among their many other uses. The nanostructured boron nitride (BN) is a potential candidate in this area since it possesses outstanding structural and chemical properties and its two-dimensional (2D) structure endows them with thermal stability, high surface area, and natural flame resistance making them extremely valuable for fire safety improvement in many materials. In recent years, progress in the synthesis, functionalization, and use of nanostructured BN in flame retardant composites cast new light on the fundamental processes that underlie their flame-retardant properties but also triggered the creation of new, high-performance flame-retardant materials. This review provides an integral overview of the most recent advancements in nanostructured BN-based flame-retardant composites, systematically exploring the synthesis routes, properties, characterization methods, and flame retardancy mechanisms. The review explores the underlying principles of the flame-resistant BN-based composites, emphasizing their versatile applications in different industries highlighting their vast potential as next-generation flame retardants. The future trends and challenges associated with the extensive utilization of the nanostructured BN in flame retardant applications are briefed. With a detailed description of the state-of-the-art in nanostructured BN with flame-retardant composites, the current review intends to promote research activities in this emerging area leading to the progress of next-generation sustainable flame-retardant materials with excellent performance.With formerly unattainable control over material properties at the nanoscale, nanotechnology has emerged as a paradigm shift in materials research. Given the increasing demand for fire-resistant materials in industries, the use of nanomaterials in flame-retardant composites has garnered significant attention among their many other uses. The nanostructured boron nitride (BN) is a potential candidate in this area since it possesses outstanding structural and chemical properties and its two-dimensional (2D) structure endows them with thermal stability, high surface area, and natural flame resistance making them extremely valuable for fire safety improvement in many materials. In recent years, progress in the synthesis, functionalization, and use of nanostructured BN in flame retardant composites cast new light on the fundamental processes that underlie their flame-retardant properties but also triggered the creation of new, high-performance flame-retardant materials. This review provides an integral overview of the most recent advancements in nanostructured BN-based flame-retardant composites, systematically exploring the synthesis routes, properties, characterization methods, and flame retardancy mechanisms. The review explores the underlying principles of the flame-resistant BN-based composites, emphasizing their versatile applications in different industries highlighting their vast potential as next-generation flame retardants. The future trends and challenges associated with the extensive utilization of the nanostructured BN in flame retardant applications are briefed. With a detai |
| Klíčová slova |
Zpět