Low-buckled silicene, germanene, and stanene are group$-IV$ graphene allotropes. They form a honeycomb lattice out of two interpenetrating ($A$ and $B$) triangular sublattices that are vertically separated by a small distance $Delta_z$. The atomic numbers $Z$ of silicon, germanium, and tin are larger to carbon’s ($Z_C=6$), making them the first experimentally viable two-dimensional topological insulators. Those materials have a twice-energy-degenerate atomistic structure characterized by the buckling direction of the $B$ sublattice with respect to the $A$ sublattice [whereby the $B-$atom either protrudes {em above} ($Delta_z>0$) or {em below} ($Delta_z
Published in: "arXiv Material Science".