Triangular monolayers: Indenene and beyond

Indenene is a triangular monolayer of indium on SiC(0001) [1,2] in which Kane-Mele-like quantum spin Hall physics emerges from the (px, py) orbitals rather than from the usual honeycomb sublattice degree of freedom. The quantum interference of the corresponding Bloch wave functions in the 2d-bulk can be directly probed by scanning tunneling microscopy, allowing for an experimental detection of non-trivial topology entirely based on the properties of the bulk wave functions rather than on edge quantum transport. Recently, the operability of indenene as a quantum spin Hall insulator in air has been achieved [3] and the role of orbital angular momentum has been unveiled by means of circular dichroism in angle-resolved photoemission spectroscopy [4]. Realizing similar monolayers with transition-metal elements, as proposed in [5], opens new directions for strongly correlated effects in topological bandstructures.