Fast char formation induced by POSS confining Co-MOF hollow prisms in epoxy composites with mitigated heat and smoke hazards

Fast char formation induced by POSS confining Co-MOF hollow prisms in epoxy composites with mitigated heat and smoke hazards

[Display omitted] •A simple method for synthesizing nano-composite flame retardants with hollow prismatic structures.•POSS can be used as a structure-directing agent to maintain the nanostructure.•Cobalt-silicon synergy for enhanced flame retardancy and smoke suppression.•Nano-composite flame retard...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Vol. 474; p. 145682
Main Authors: Han, Zhengde, Zhang, Wenyuan, Song, Xiaoning, Vahabi, Henri, Pan, Ye-Tang, Zhang, Wenchao, Yang, Rongjie
Format: Journal Article
Language:English
Published: Elsevier B.V 15-10-2023
Subjects:
Epoxy composites
Flame retardant
Hollow structure
Metal-organic framework
POSS
Hollow structure
Flame retardant
Epoxy composites
Metal-organic framework
POSS
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Summary:[Display omitted] •A simple method for synthesizing nano-composite flame retardants with hollow prismatic structures.•POSS can be used as a structure-directing agent to maintain the nanostructure.•Cobalt-silicon synergy for enhanced flame retardancy and smoke suppression.•Nano-composite flame retardants achieve good dispersion in epoxy resin. Polyhedral oligomeric silsesquioxanes (POSS) containing transition metals have excellent flame retardant properties. However, the flame retardant obtained by direct coordination of transition metal cobalt (Co) with POSS tends to agglomerate, resulting in unsatisfactory flame retardant efficiency. Herein, a synthetic route was designed to use a water-soluble cobalt-polyvinylpyrrolidone (Co-PVP) complex as the template and cobalt source to first grow cobalt-metal–organic frameworks (Co-MOFs) on its surface, and then an aqueous solution of Na-POSS was used as both a structure-directing agent and an etching agent to load POSS and remove the template synchronously. Finally, a hollow prism with POSS wrapped around the Co-MOF (designated Co-MOF@POSS) was obtained. The hollow structure not only showed an optimized dispersion in the matrix but also exposed more active sites, catalyzing the formation of the carbon layer, and the silica ceramic layer formed by POSS further enhanced the strength of the carbon layer. An excellent flame retardant effect was obtained by adding Co-MOF@POSS to epoxy at 2 wt%. The heat release and smoke release of the epoxy composites were significantly reduced by the synergistic effect of cobalt and silicon, and the addition of Co-MOF@POSS improved the limiting oxygen index to 27.5% and decreased the peak of heat release rate, total heat release, and total smoke production by 34.6%, 16.6% and 23.8%, respectively. This work provides new ideas for the preparation of MOF and POSS-based flame retardants.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2023.145682