Amorphous BC5 from first principles calculations
Abstract
A boron-substituted amorphous graphite (BC5) network is generated using a first principles molecular dynamics
simulation and its atomic structure and electrical and mechanical properties are discussed in details. The network
has a layered structure with primarily hexagonal (six membered) rings and its average coordination is about 3.0.
The material is a solid solution having a minor amount of B-B homopolar bonds. It is structurally different from
the BC5 crystal or monolayers proposed in the literature. The model is a semimetal material based on a generalized gradient approximation with the Hubbard correction (GGA+U) calculation. When its mechanical properties are concerned, they are comparable with those of graphite or amorphous graphite.