(253ae) Extraction of Pairwise Interaction Potentials from Cohesive Energy Inversions--a General Approach with DFT
AIChE Annual Meeting
2016
2016 AIChE Annual Meeting
Computational Molecular Science and Engineering Forum
Poster Session: Computational Molecular Science and Engineering Forum (CoMSEF)
Monday, November 14, 2016 - 6:00pm to 8:00pm
Cohesive energy curves contain the energetics of atomic interactions in crystalline materials. These can
be obtained from density functional theory calculations using in silico lattice expansions. Decomposing
these curves into the different interatomic potential energy contributions is valuable to extract
pair-potential interactions, which can later be used for molecular mechanics or molecular dynamics
simulations. In this work, we present and discuss a generalized method for the extraction of pairwise
interaction potentials from the inversion of cohesive energy curves. We use detailed geometrical descriptions
of the atomic interactions to construct a list of atomic displacements and degeneracies, which is
modified using a Gaussian elimination process to isolate the pairwise interactions.
The proposed method provides a more general framework for cohesive energy inversions that is robust and
accurate for systems well-described by pairwise potential interactions. Results show very good reproduction
of cohesive energies with the same or better accuracy than current approaches. An important advantage of
this method is its application to systems with fixed internal constraints such as local rigid body structures.
Specific examples for the extraction of heteroatomic interactions in metal hexaboride systems are illustrated.
be obtained from density functional theory calculations using in silico lattice expansions. Decomposing
these curves into the different interatomic potential energy contributions is valuable to extract
pair-potential interactions, which can later be used for molecular mechanics or molecular dynamics
simulations. In this work, we present and discuss a generalized method for the extraction of pairwise
interaction potentials from the inversion of cohesive energy curves. We use detailed geometrical descriptions
of the atomic interactions to construct a list of atomic displacements and degeneracies, which is
modified using a Gaussian elimination process to isolate the pairwise interactions.
The proposed method provides a more general framework for cohesive energy inversions that is robust and
accurate for systems well-described by pairwise potential interactions. Results show very good reproduction
of cohesive energies with the same or better accuracy than current approaches. An important advantage of
this method is its application to systems with fixed internal constraints such as local rigid body structures.
Specific examples for the extraction of heteroatomic interactions in metal hexaboride systems are illustrated.