Electrostatic-interaction-driven assembly of binary hybrids towards fire-safe epoxy resin nanocomposites
Manganese dioxide (MnO2), as a promising green material, has recently attracted considerable attention of researchers from various fields. In this work, a facile method was introduced to prepare binary hybrids by fabricating three-dimensional (3D) zinc hydroxystannate (ZHS) cubes on two-dimensional...
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sg-ntu-dr.10356-1070262023-07-14T15:55:03Z Electrostatic-interaction-driven assembly of binary hybrids towards fire-safe epoxy resin nanocomposites Liu, Lu Wang, Wei Shi, Yongqian Fu, Libi Xu, Lulu Yu, Bin School of Materials Science & Engineering DRNTU::Engineering::Materials Binary Hybrids Manganese Dioxide Manganese dioxide (MnO2), as a promising green material, has recently attracted considerable attention of researchers from various fields. In this work, a facile method was introduced to prepare binary hybrids by fabricating three-dimensional (3D) zinc hydroxystannate (ZHS) cubes on two-dimensional (2D) MnO2 nanosheets towards excellent flame retardancy and toxic effluent elimination of epoxy (EP) resin. Microstructural analysis confirmed that the morphologies and structures of MnO2@ZHS binary hybrids were well characterized, implying the successful synthesis. Additionally, the morphological characterization indicated that MnO2@ZHS binary hybrids could achieve satisfactory interfacial interaction with the EP matrix and be well dispersed in nanocomposites. Cone calorimeter test suggested that MnO2@ZHS binary hybrids effectively suppressed the peak of heat release rate and total heat release of EP nanocomposites, performing better than MnO2 or ZHS alone. Condensed-phase analysis revealed that MnO2@ZHS binary hybrids could promote the char density and graphitization degree of char residues and thereby successfully retard the permeation of oxygen and flammable gases. Moreover, through the analysis of gas phase, it can be concluded that MnO2@ZHS binary hybrids could efficiently suppress the production of toxic gases during the degradation of EP nanocomposites. This work implies that the construction of 2D/3D binary hybrids with an interfacial interaction is an effective way to fabricate high-performance flame retardants for EP. Published version 2019-07-01T02:56:09Z 2019-12-06T22:23:24Z 2019-07-01T02:56:09Z 2019-12-06T22:23:24Z 2019 Journal Article Liu, L., Wang, W., Shi, Y., Fu, L., Xu, L., & Yu, B. (2019). Electrostatic-interaction-driven assembly of binary hybrids towards fire-safe epoxy resin nanocomposites. Polymers, 11(2), 229-. doi:10.3390/polym11020229 https://hdl.handle.net/10356/107026 http://hdl.handle.net/10220/49030 10.3390/polym11020229 en Polymers © 2019 The Authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/). 16 p. application/pdf |
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DRNTU::Engineering::Materials Binary Hybrids Manganese Dioxide Liu, Lu Wang, Wei Shi, Yongqian Fu, Libi Xu, Lulu Yu, Bin Electrostatic-interaction-driven assembly of binary hybrids towards fire-safe epoxy resin nanocomposites |
| description |
Manganese dioxide (MnO2), as a promising green material, has recently attracted considerable attention of researchers from various fields. In this work, a facile method was introduced to prepare binary hybrids by fabricating three-dimensional (3D) zinc hydroxystannate (ZHS) cubes on two-dimensional (2D) MnO2 nanosheets towards excellent flame retardancy and toxic effluent elimination of epoxy (EP) resin. Microstructural analysis confirmed that the morphologies and structures of MnO2@ZHS binary hybrids were well characterized, implying the successful synthesis. Additionally, the morphological characterization indicated that MnO2@ZHS binary hybrids could achieve satisfactory interfacial interaction with the EP matrix and be well dispersed in nanocomposites. Cone calorimeter test suggested that MnO2@ZHS binary hybrids effectively suppressed the peak of heat release rate and total heat release of EP nanocomposites, performing better than MnO2 or ZHS alone. Condensed-phase analysis revealed that MnO2@ZHS binary hybrids could promote the char density and graphitization degree of char residues and thereby successfully retard the permeation of oxygen and flammable gases. Moreover, through the analysis of gas phase, it can be concluded that MnO2@ZHS binary hybrids could efficiently suppress the production of toxic gases during the degradation of EP nanocomposites. This work implies that the construction of 2D/3D binary hybrids with an interfacial interaction is an effective way to fabricate high-performance flame retardants for EP. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Liu, Lu Wang, Wei Shi, Yongqian Fu, Libi Xu, Lulu Yu, Bin |
| format |
Article |
| author |
Liu, Lu Wang, Wei Shi, Yongqian Fu, Libi Xu, Lulu Yu, Bin |
| author_sort |
Liu, Lu |
| title |
Electrostatic-interaction-driven assembly of binary hybrids towards fire-safe epoxy resin nanocomposites |
| title_short |
Electrostatic-interaction-driven assembly of binary hybrids towards fire-safe epoxy resin nanocomposites |
| title_full |
Electrostatic-interaction-driven assembly of binary hybrids towards fire-safe epoxy resin nanocomposites |
| title_fullStr |
Electrostatic-interaction-driven assembly of binary hybrids towards fire-safe epoxy resin nanocomposites |
| title_full_unstemmed |
Electrostatic-interaction-driven assembly of binary hybrids towards fire-safe epoxy resin nanocomposites |
| title_sort |
electrostatic-interaction-driven assembly of binary hybrids towards fire-safe epoxy resin nanocomposites |
| publishDate |
2019 |
| url |
https://hdl.handle.net/10356/107026 http://hdl.handle.net/10220/49030 |
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1772826550762209280 |