Calculations predict a stable molecular crystal of N8.
@article{Hirshberg2014CalculationsPA,
title={Calculations predict a stable molecular crystal of N8.},
author={Barak Hirshberg and R. Benny Gerber and Anna I. Krylov},
journal={Nature chemistry},
year={2014},
volume={6 1},
pages={
52-6
}
}Nitrogen, one of the most abundant elements in nature, forms the highly stable N2 molecule in its elemental state. In contrast, polynitrogen compounds comprising only nitrogen atoms are rare, and no molecular crystal made of these compounds has been prepared. Here, we predict the existence of such a molecular solid, consisting of N8 molecules, that is metastable even at ambient pressure. In the solid state, the N8 monomers retain the same structure and bonding pattern as those they adopt in the…
106 Citations
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References
SHOWING 1-10 OF 35 REFERENCES
Single-bonded cubic form of nitrogen
- ChemistryNature materials
- 2004
The polymeric nitrogen with the theoretically predicted cubic gauche structure (cg-N) represents a new class of single-bonded nitrogen materials with unique properties such as energy capacity: more than five times that of the most powerfully energetic materials.
Semiconducting non-molecular nitrogen up to 240 GPa and its low-pressure stability
- Chemistry, PhysicsNature
- 2001
It is shown that the non-molecular phase of nitrogen is semiconducting up to at least 240 GPa, at which pressure the energy gap has decreased to 0.4 eV, and the transition from insulating to semiconductor behaviour starts at a pressure of approximately 140 GPa, but shifts to much higher pressure with decreasing temperature.
Polymeric nitrogen.
- Materials SciencePhysical review. B, Condensed matter
- 1992
It is shown that the black-phosphorus and cubic gauche polymeric forms of nitrogen would encounter signi6cant barriers along high-symmetry paths to dimerization at atmospheric pressure, and that hysteresis enhances the prospects for the existence of a metastable polymeric form of nitrogen at ambient conditions.
Predicted stability and structure of (HXeCCH)n (n=2 or 4) clusters and of crystalline HXeCCH.
- ChemistryThe Journal of chemical physics
- 2007
The results are first evidence for the existence of crystalline materials made of a novel class of noble gas molecules and the stability and structure of HXeCCH crystals is predicted by density functional theory calculations with periodic boundary conditions.
Stability and energetics of metastable molecules: tetraazatetrahedrane (N4), hexaazabenzene (N6), and octaazacubane (N8)
- Chemistry
- 1992
By use of ab initio self-consistent field (SCF), coupled-cluster, and many-body perturbation theory (MBPT) methods, the potential nitrogen molecules, tetrahedral N 4 and octahedral N 8 , are found to…
Structural stability of polymeric nitrogen: A first-principles investigation.
- Chemistry, Materials ScienceThe Journal of chemical physics
- 2010
The stability of different candidate polymeric structures of nitrogen has been studied using ab initio calculations based on density-functional theory for the first time, from the angles of thermodynamic stabilities, mechanicalStabilities, and dynamical stabilities in the pressure range from 0 to 360 GPa, respectively.
Formation of novel rare-gas molecules in low-temperature matrices.
- ChemistryAnnual review of physical chemistry
- 2004
The reviewed state-of-the-art suggests this field is at an early stage of development with major open questions bearing on the surprising properties of the molecules and on the formation mechanisms, which are part of the challenge for the future.
On the Stability of N5+N5-
- Chemistry
- 2002
We investigate the stability of N5+N5- as an isolated species and in a potential periodic structure. Its barriers toward loss of N3· from the N5+ ion or addition to form N10 are 25 and 15 kcal/mol.…
Prediction of new phases of nitrogen at high pressure from first-principles simulations.
- Physics, Materials SciencePhysical review letters
- 2004
A low barrier transition path from the known epsilon phase to the chainlike metallic phase is identified, and in analogy to MgB2, the metal is anisotropic with multiple Fermi surfaces formed from pi and sigma states.