Nanoenergetic composites with fluoropolymers: transition from powders to structures
Over the years, nanoenergetic materials have gained enormous research interest due to their overall better combustion characteristics as compared to their micron-sized counterparts. Alu-minum, boron and their respective alloys are the most extensively studied nanoenergetic mate-rials. Majority of th...
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sg-ntu-dr.10356-1622632022-10-15T23:31:06Z Nanoenergetic composites with fluoropolymers: transition from powders to structures Pisharath, Sreekumar Ong, Yew Jin Hng, Huey Hoon School of Materials Science and Engineering Emerging nanoscience Research Institute Science::Chemistry::Organic chemistry::Polymers Engineering::Materials::Functional materials Nanoenergetic Materials Fluoropolymers Reactive Structures Over the years, nanoenergetic materials have gained enormous research interest due to their overall better combustion characteristics as compared to their micron-sized counterparts. Alu-minum, boron and their respective alloys are the most extensively studied nanoenergetic mate-rials. Majority of the research work related to this topic are confined to the respective powders. However, for practical applications, the powders need to be consolidated into reactive structures. Processing the nanoenergetic materials with polymeric binders to prepare structured composites is a possible route for the conversion of powders to structures. Most of the binders including the energetic ones, when mixed with nanoenergetic materials even in small quantities, adversely affects the ignitability and combustion performance of the corresponding composites. The pas-sivating effect induced by the polymeric binder is considered unfavorable for ignitability. Fluoropolymers, with their ability to induce pre-ignition reactions with the nascent oxide shell around aluminum and boron, are recognized to sustain the ignitability of the composites. Initial research efforts have been focused on surface functionalizing approaches using fluoropolymers to activate them further for energy release, and also to improve the safety and storage. With the combined advent of more advanced chemistry and manufacturing techniques, fluoropolymers are later being investigated as binders to process nanoenergetic materials to reactive structures. This review focuses on the major research developments in this area that have significantly assisted in the transitioning of nanoenergetic powders to structures using fluoropolymers as binders. Published version 2022-10-12T00:54:21Z 2022-10-12T00:54:21Z 2022 Journal Article Pisharath, S., Ong, Y. J. & Hng, H. H. (2022). Nanoenergetic composites with fluoropolymers: transition from powders to structures. Molecules, 27, 6598-. https://dx.doi.org/10.3390/molecules27196598 1420-3049 https://hdl.handle.net/10356/162263 10.3390/molecules27196598 27 6598 en Molecules © 2022 by 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 (https:// creativecommons.org/licenses/by/ 4.0/). application/pdf |
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Science::Chemistry::Organic chemistry::Polymers Engineering::Materials::Functional materials Nanoenergetic Materials Fluoropolymers Reactive Structures |
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Science::Chemistry::Organic chemistry::Polymers Engineering::Materials::Functional materials Nanoenergetic Materials Fluoropolymers Reactive Structures Pisharath, Sreekumar Ong, Yew Jin Hng, Huey Hoon Nanoenergetic composites with fluoropolymers: transition from powders to structures |
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Over the years, nanoenergetic materials have gained enormous research interest due to their overall better combustion characteristics as compared to their micron-sized counterparts. Alu-minum, boron and their respective alloys are the most extensively studied nanoenergetic mate-rials. Majority of the research work related to this topic are confined to the respective powders. However, for practical applications, the powders need to be consolidated into reactive structures. Processing the nanoenergetic materials with polymeric binders to prepare structured composites is a possible route for the conversion of powders to structures. Most of the binders including the energetic ones, when mixed with nanoenergetic materials even in small quantities, adversely affects the ignitability and combustion performance of the corresponding composites. The pas-sivating effect induced by the polymeric binder is considered unfavorable for ignitability. Fluoropolymers, with their ability to induce pre-ignition reactions with the nascent oxide shell around aluminum and boron, are recognized to sustain the ignitability of the composites. Initial research efforts have been focused on surface functionalizing approaches using fluoropolymers to activate them further for energy release, and also to improve the safety and storage. With the combined advent of more advanced chemistry and manufacturing techniques, fluoropolymers are later being investigated as binders to process nanoenergetic materials to reactive structures. This review focuses on the major research developments in this area that have significantly assisted in the transitioning of nanoenergetic powders to structures using fluoropolymers as binders. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Pisharath, Sreekumar Ong, Yew Jin Hng, Huey Hoon |
| format |
Article |
| author |
Pisharath, Sreekumar Ong, Yew Jin Hng, Huey Hoon |
| author_sort |
Pisharath, Sreekumar |
| title |
Nanoenergetic composites with fluoropolymers: transition from powders to structures |
| title_short |
Nanoenergetic composites with fluoropolymers: transition from powders to structures |
| title_full |
Nanoenergetic composites with fluoropolymers: transition from powders to structures |
| title_fullStr |
Nanoenergetic composites with fluoropolymers: transition from powders to structures |
| title_full_unstemmed |
Nanoenergetic composites with fluoropolymers: transition from powders to structures |
| title_sort |
nanoenergetic composites with fluoropolymers: transition from powders to structures |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162263 |
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1749179185680613376 |