Experimental observation and energy performance calculations of potential oxidants O4−/0 and O6−/0 clusters

Experimental observation and energy performance calculations of potential oxidants O4−/0 and O6−/0 clusters

In order to explore novel high-energy and green oxidants, oxygen-rich clusters O4−/0 and O6−/0 were investigated by laser-vaporization source, mass spectrometry and theoretical calculations. Most of the low-lying isomers of On−/0 clusters are polyline structures consisting of O2 and O3 units. With o...

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Bibliographic Details
Main Authors: Bin Yang, Kewei Ding, Taoqi Li, Chenxi Qu, Luyao Zhu, Zhongxue Ge
Format: Article
Language:English
Published: KeAi Communications Co. Ltd. 2022-06-01
Series:FirePhysChem
Subjects:
Oxider
Oxygen clusters
Propellant
Mass spectrum
Theoretical calculation
Online Access:http://www.sciencedirect.com/science/article/pii/S2667134421000468
Description
Summary:In order to explore novel high-energy and green oxidants, oxygen-rich clusters O4−/0 and O6−/0 were investigated by laser-vaporization source, mass spectrometry and theoretical calculations. Most of the low-lying isomers of On−/0 clusters are polyline structures consisting of O2 and O3 units. With one exception, O6, which has a chair-form cyclic structure with D3d symmetry, just like cyclohexane. It has the largest HOMO-LUMO energy gap of the On−/0 (n = 4, 6) clusters. The energy performances of O6 cluster were also estimated, which the density is 2.03 g/cm3, the solid enthalpy of formation is 114.75 kcal/mol, and the theoretical specific impulse (Isp) of H2(L)/O6 cluster is calculated to be 507.78 s.
ISSN:2667-1344

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