A Heat-Resistant and Energetic Metal-Organic Framework Assembled by Chelating Ligand

Qianyou Wang; Shan Wang; Xiao Feng; Le Wu; Guoying Zhang; Mingrui Zhou; Bo Wang; Li Yang

doi:10.1021/acsami.7b12767

A Heat-Resistant and Energetic Metal-Organic Framework Assembled by Chelating Ligand

Qianyou Wang, Shan Wang, Xiao Feng^*, Le Wu, Guoying Zhang, Mingrui Zhou, Bo Wang, Li Yang

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

68 Citations (Scopus)

Abstract

Heat-resistant explosives with high performance and insensitivity to external stimulus or thermal are indispensable in both the military and civilian worlds especially when utilized under harsh conditions. We designed and synthesized a new heat-resistant three-dimensional chelating energetic metal-organic framework (CEMOF-1) by employing 4-amino-4H-1,2,4-triazole-3,5-diol (ATDO) as a ligand. Because of its chelating 3D structural feature, good oxygen balance (-29.58%), and high crystal density (2.234 g cm^-3), CEMOF-1 demonstrates high decomposition temperature (445 °C), insensitivity to stimulation, and excellent detonation velocity (10.05 km s^-1) and detonation pressure (49.36 GPa). The advantages of facile synthesis, thermal stability, and powerful explosive performance make CEMOF-1 as a promising candidate for heat-resistant explosives in future applications.

Original language	English
Pages (from-to)	37542-37547
Number of pages	6
Journal	ACS applied materials & interfaces
Volume	9
Issue number	43
DOIs	https://doi.org/10.1021/acsami.7b12767
Publication status	Published - 1 Nov 2017

Keywords

chealting ligand
energetic materials
explosives
heat-resistant
metal-organic frameworks

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10.1021/acsami.7b12767

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title = "A Heat-Resistant and Energetic Metal-Organic Framework Assembled by Chelating Ligand",

abstract = "Heat-resistant explosives with high performance and insensitivity to external stimulus or thermal are indispensable in both the military and civilian worlds especially when utilized under harsh conditions. We designed and synthesized a new heat-resistant three-dimensional chelating energetic metal-organic framework (CEMOF-1) by employing 4-amino-4H-1,2,4-triazole-3,5-diol (ATDO) as a ligand. Because of its chelating 3D structural feature, good oxygen balance (-29.58%), and high crystal density (2.234 g cm-3), CEMOF-1 demonstrates high decomposition temperature (445 °C), insensitivity to stimulation, and excellent detonation velocity (10.05 km s-1) and detonation pressure (49.36 GPa). The advantages of facile synthesis, thermal stability, and powerful explosive performance make CEMOF-1 as a promising candidate for heat-resistant explosives in future applications.",

keywords = "chealting ligand, energetic materials, explosives, heat-resistant, metal-organic frameworks",

author = "Qianyou Wang and Shan Wang and Xiao Feng and Le Wu and Guoying Zhang and Mingrui Zhou and Bo Wang and Li Yang",

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AU - Wang, Qianyou

AU - Wang, Shan

AU - Feng, Xiao

AU - Wu, Le

AU - Zhang, Guoying

AU - Zhou, Mingrui

AU - Wang, Bo

AU - Yang, Li

PY - 2017/11/1

Y1 - 2017/11/1

N2 - Heat-resistant explosives with high performance and insensitivity to external stimulus or thermal are indispensable in both the military and civilian worlds especially when utilized under harsh conditions. We designed and synthesized a new heat-resistant three-dimensional chelating energetic metal-organic framework (CEMOF-1) by employing 4-amino-4H-1,2,4-triazole-3,5-diol (ATDO) as a ligand. Because of its chelating 3D structural feature, good oxygen balance (-29.58%), and high crystal density (2.234 g cm-3), CEMOF-1 demonstrates high decomposition temperature (445 °C), insensitivity to stimulation, and excellent detonation velocity (10.05 km s-1) and detonation pressure (49.36 GPa). The advantages of facile synthesis, thermal stability, and powerful explosive performance make CEMOF-1 as a promising candidate for heat-resistant explosives in future applications.

AB - Heat-resistant explosives with high performance and insensitivity to external stimulus or thermal are indispensable in both the military and civilian worlds especially when utilized under harsh conditions. We designed and synthesized a new heat-resistant three-dimensional chelating energetic metal-organic framework (CEMOF-1) by employing 4-amino-4H-1,2,4-triazole-3,5-diol (ATDO) as a ligand. Because of its chelating 3D structural feature, good oxygen balance (-29.58%), and high crystal density (2.234 g cm-3), CEMOF-1 demonstrates high decomposition temperature (445 °C), insensitivity to stimulation, and excellent detonation velocity (10.05 km s-1) and detonation pressure (49.36 GPa). The advantages of facile synthesis, thermal stability, and powerful explosive performance make CEMOF-1 as a promising candidate for heat-resistant explosives in future applications.

KW - chealting ligand

KW - energetic materials

KW - explosives

KW - heat-resistant

KW - metal-organic frameworks

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ER -

A Heat-Resistant and Energetic Metal-Organic Framework Assembled by Chelating Ligand

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Keywords

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