Density Functional Theory Calculations on Nitrated Boroxines as Possible High Energy-Density Materials

Lisa M. Ina; David W. Ball

doi:10.18061/ojs.v117i2.5298

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Density Functional Theory Calculations on Nitrated Boroxines as Possible High Energy-Density Materials

Abstract

Density functional theory calculations were performed on a series of nitroboroxine molecules (cyclo-[BO]₃-[NO₂]_xH_3-x, x = 1 – 3) to determine their thermodynamic properties and assess them as potential high energy materials. Minimum-energy geometries of four boroxine molecules were determined, along with their normal modes of vibration. Analysis of the energies of the molecules and their possible decomposition and combustion products suggests an energy contact comparable to that of TNT.

Keywords: Nitroboroxines, density functional theoretical calculations, high energy density materials

How to Cite:

Ina, L. & Ball, D., (2017) “Density Functional Theory Calculations on Nitrated Boroxines as Possible High Energy-Density Materials”, The Ohio Journal of Science 117(2), 27-34. doi: https://doi.org/10.18061/ojs.v117i2.5298

Rights: Lisa M. Ina, David W. Ball

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Lisa M. Ina
David W. Ball

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Published on 2017-05-05
Pages: 27-34
Peer Reviewed
License Creative Commons Attribution 4.0

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