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Literature DB >> 16737273

Isomer stability of N6C6H6 cages.

Abstract

Recent theoretical studies have identified carbon-nitrogen cages that are potentially stable high energy density materials (HEDM). One such molecule is an N(6)C(6)H(6) cage in which a six-membered ring of nitrogen is bonded to C(3)H(3) triangles on both sides. This molecule is based on the structure of the most stable N(12) cage, with six carbon atoms substituted into the structure. In the current study, several N(6)C(6)H(6) isomers (including the previously studied cage) are examined by theoretical calculations to determine which is actually the most stable. Stability will be evaluated from two points of view: (1) thermodynamic stability of one isomer versus another and (2) kinetic stability of each isomer as determined by the energetics of bond breaking. Density functional theory (B3LYP), perturbation theory (MP2 and MP4), and coupled-cluster theory (CCSD(T)) are used in this study, along with the correlation-consistent basis sets of Dunning. Trends in thermodynamic and kinetic stability are discussed.

Entities: Chemical Gene

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Year: 2006 PMID： 16737273 PMCID： PMC2597177 DOI： 10.1021/jp0604746

Source DB: PubMed Journal: J Phys Chem A ISSN： 1089-5639 Impact factor: 2.781

10 in total

1. What makes an N12 cage stable?

Authors: Lana Y Bruney; Telia M Bledson; Douglas L Strout
Journal: Inorg Chem Date: 2003-12-01 Impact factor: 5.165

2. High-energy-density materials: synthesis and characterization of N5+[P(N3)6]-, N5+[B(N3)4]-, N5+[HF2]-.n HF, N5+[BF4]-, N5+[PF6]-, and N5+[SO3F]-.

Authors: Ralf Haiges; Stefan Schneider; Thorsten Schroer; Karl O Christe
Journal: Angew Chem Int Ed Engl Date: 2004-09-20 Impact factor: 15.336

3. On the way to "solid nitrogen" at normal temperature and pressure? Binary azides of heavier group 15 and 16 elements.

Authors: Carsten Knapp; Jack Passmore
Journal: Angew Chem Int Ed Engl Date: 2004-09-20 Impact factor: 15.336

4. Besides N(2), What Is the Most Stable Molecule Composed Only of Nitrogen Atoms?

Authors: Mikhail N. Glukhovtsev; Haijun Jiao; Paul von Ragué Schleyer
Journal: Inorg Chem Date: 1996-11-20 Impact factor: 5.165

5. Development of the Colle-Salvetti correlation-energy formula into a functional of the electron density.

Authors:
Journal: Phys Rev B Condens Matter Date: 1988-01-15

6. Experimental detection of the pentaazacyclopentadienide (pentazolate) anion, cyclo-N5-**.

Authors: Ashwani Vij; James G Pavlovich; William W Wilson; Vandana Vij; Karl O Christe
Journal: Angew Chem Int Ed Engl Date: 2002-08-16 Impact factor: 15.336

7. Enthalpies of formation of gas-phase N3, N3-, N5+, and N5- from Ab initio molecular orbital theory, stability predictions for N5(+)N3(-) and N5(+)N5(-), and experimental evidence for the instability of N5(+)N3(-).

Authors: David A Dixon; David Feller; Karl O Christe; William W Wilson; Ashwani Vij; Vandana Vij; H Donald Brooke Jenkins; Ryan M Olson; Mark S Gordon
Journal: J Am Chem Soc Date: 2004-01-28 Impact factor: 15.419

8. First generation of pentazole (HN5, pentazolic acid), the final azole, and a zinc pentazolate salt in solution: A new N-dearylation of 1-(p-methoxyphenyl) pyrazoles, a 2-(p-methoxyphenyl) tetrazole and application of the methodology to 1-(p-methoxyphenyl) pentazole.

Authors: R N Butler; John C Stephens; Luke A Burke
Journal: Chem Commun (Camb) Date: 2003-04-21 Impact factor: 6.222

9. Polyazido high-nitrogen compounds: hydrazo- and azo-1,3,5-triazine.

Authors: My-Hang V Huynh; Michael A Hiskey; Ernest L Hartline; Dennis P Montoya; Richard Gilardi
Journal: Angew Chem Int Ed Engl Date: 2004-09-20 Impact factor: 15.336

10. Single-bonded cubic form of nitrogen.

Authors: Mikhail I Eremets; Alexander G Gavriliuk; Ivan A Trojan; Dymitro A Dzivenko; Reinhard Boehler
Journal: Nat Mater Date: 2004-07-04 Impact factor: 43.841