An Ab Initio Study of Solid Nitromethane, HMX, RDX, and CL20: Successes and Failures of DFT

Abstract

Using the PW91 and PBE density functional theories (DFT), we have studied four energetic molecular crystals: nitromethane, HMX, RDX, and CL20 with a wide range of basis sets. Our goal is to assess the accuracy of DFT when applied to organic molecular crystals (such as energetic materials) as scientists are beginning to include this methodology in energetic materials research without knowledge of the limitations of the method. Intramolecular distances, simple angles, and band gaps are converged at plane wave cutoff energies of 430 to 495 eV. Cell parameters were determined over a range of values from 280 eV to 700 or 800 eV, depending upon the system. Lattice vectors, however, display large errors in the range of 0.2 to 1.0, and a very slow convergence on basis set size. We hypothesize the error in the lattice vectors is due to a lack of van der Waals forces in current DFT functionals. This deficiency will have unforeseen consequences on all crystal calculations for organic molecules, and therefore caution should be employed whenever interpreting results obtained from the current DFT functionals available in solid state codes. To properly describe the electronic structure of these types of crystals, these results suggest the need for new methods involving DFT to be developed which include accurate dispersion forces.

Document Details

Document Type

Technical Report

Publication Date

Dec 01, 2004

Accession Number

ADA432907

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