Chemistry of Titanium, Zirconium and Thorium Picramates

Thermally stable explosives are becoming more and more important nowadays due to their important role in the oil and mining industry. The requirements of these explosives are constantly changing. Picramate-based compounds are poorly investigated towards their energetic properties as well as sensitivities. In this work, 13 different salts of picramic acid were synthesized as potential energetic materials with high thermal stability in a simple one-step reaction and compared with commercially used lead picramate. The obtained compounds were extensively characterized by e. g. XRD, IR, EA, DTA, and TGA. In addition, the sensitivities towards impact and friction were de-termined with the BAM drop hammer and the BAM friction tester. Also, the electrostatic discharge sensitivity was explored. Calculations of the energetic performance of selected compounds were carried out with the current version of EXPLO5 code. Therefore, heats of formation were computed and X-ray densities were converted to room temperature. Some of the synthesized salts show promising characteristics with high exothermic decomposition temperatures. Especially, the water-free rubidium, cesium, and barium salts 5, 6 and 10 with decomposition temperatures of almost 300°C could be promising candidates for future applications.

Section: Introductionmentioning

confidence: 99%

“…Molecular structure of 14. Selected bond lengths (pm): C1À O1 126.97(17), C2À N1 144.30(18), N1À O2 123.06(17), N1À O3 123.36(17), C4À N2 143.23(18), N2À O4 123.41(15), N2À O5 124.85(16), C6À N3 139.77(18).…”

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confidence: 99%

Salts of Picramic Acid – Nearly Forgotten Temperature‐Resistant Energetic Materials

Wurzenberger

Lechner

Lommel

et al. 2020

A Comparative Study on some Explosive Properties of cobalt picrate and cobalt picramate

Agarwal

Agrawal

1981

Synthesis, Characterization and Derivatives of Iso‐Picramic Acid

Klapötke

Lechner

Stierstorfer

2022

Comparing the sensitive explosives DDNP (2-diazonium-4,6-dinitrophenolate) with iso-DDNP (para-DDNP, 4-diazonium-2,6-dinitrophenolate), it seems obvious that with increasing symmetry in the molecule, the energetic parameters also increase. This work therefore investigates whether the same trend can be applied for the isomers picramic acid (2-amino-4,6-dinitrophenol) and iso-picramic acid (para picramic acid, 4-amino-2,6-dinitrophenol). For this purpose, iso-picramic acid was synthesized and compared with the properties of picramic acid. In addition, selected ionic and other energetic derivatives such as 2,6-dinitro-4-(5H-tetrazol-1-yl)phenol were synthesized. The compounds were extensively studied by XRD, IR, EA, DTA and TGA. Further, their sensitivities towards impact and friction were investigated and the energetic properties were computed using the EXPLO5 code.