Orbital-selective Peierls phase in the metallic dimerized chain MoOCl2

Abstract

Using ab initio density functional theory, here we systematically study the monolayer MoOCl2 with a 4d2 electronic configuration. Our main results is that an orbital-selective Peierls phase (OSPP) develops in MoOCl2, resulting in the dimerization of the Mo chain along the b-axis. Specifically, the Mo-dxy orbitals form robust molecular-orbital states inducing localized dxy singlet dimers, while the Mo-dxz/yz orbitals remain delocalized and itinerant. Our study shows that MoOCl2 is globally metallic, with the Mo-dxy orbital bonding-antibonding splittings opening a gap and the Mo-dxz/yz orbitals contributing to the metallic conductivity. Overall, the results resemble the recently much discussed orbital-selective Mott phase but with the localized band induced by a Peierls distortion instead of Hubbard interactions. Finally, we also qualitatively discuss the possibility of OSPP in the 3d2 configuration, as in CrOCl2.