TY - JOUR
T1 - Aminonitronaphthalenes as Possible High Energy Density Materials
AU - Murawski, Rebecca J.
N1 - Murawski, R. J.; Ball, D. W. Aminonitronaphthalenes as Possible High Energy Density Materials. Cent. Eur. J. Energ. Mater. 2015, 12(1), 3-12.
PY - 2015/1/1
Y1 - 2015/1/1
N2 - As part of a series of studies evaluating the thermodynamic properties of new potential high energy materials, a series of calculations was performed on a variety of naphthalene molecules having amino and nitro groups. Calculations on seven aminonitronaphthalene molecules were performed, determining their minimum-energy geometries, vibrational frequencies, and energies. Enthalpies of formation were determined using atomization reactions, and subsequently enthalpies of combustion or decomposition were determined. Specific enthalpies of decomposition ranged from 4.1-4.8 kJ/g, while specific enthalpies of combustion ranged more widely, from 13 to almost 21 kJ/g. Some detonation properties of some of the derivatives rival those of current HEDMs.
AB - As part of a series of studies evaluating the thermodynamic properties of new potential high energy materials, a series of calculations was performed on a variety of naphthalene molecules having amino and nitro groups. Calculations on seven aminonitronaphthalene molecules were performed, determining their minimum-energy geometries, vibrational frequencies, and energies. Enthalpies of formation were determined using atomization reactions, and subsequently enthalpies of combustion or decomposition were determined. Specific enthalpies of decomposition ranged from 4.1-4.8 kJ/g, while specific enthalpies of combustion ranged more widely, from 13 to almost 21 kJ/g. Some detonation properties of some of the derivatives rival those of current HEDMs.
KW - high energy density materials; aminonitronaphthalenes; density functional theory calculations
UR - https://engagedscholarship.csuohio.edu/scichem_facpub/158
UR - http://paperzz.com/doc/4156630/aminonitronaphthalenes-as-possible-high-energy-density-ma...
M3 - Article
VL - 12
JO - Central European Journal of Energetic Materials
JF - Central European Journal of Energetic Materials
ER -