Electronic and spin transport properties of zigzag graphene nanoribbon mediated by metal adatom: A study by QUAMBO-NEGF approach

Structural and electronic properties, including deformation, magnetic moment, Mulliken population, bond order as well as electronic transport properties, of zigzag graphene nanoribbon (ZGNR) with Co adatom on hollow site are investigated by quasi-atomic minimal basis orbits (QUAMBOs), a first-principles tight binding (TB) scheme based on density functional theory (DFT), combined with non-equilibrium Green's function. As for electronic transport, below Fermi level the transmission is strongly suppressed and spin-dependent as a result of magnetism by Co adatom adsorption, while above Fermi level the transmission is slightly distorted and spin-independent. Due to local environment dependence of QUAMBOs-TB parameters, we construct QUAMBOs-TB parameters of ZGNR lead and ZGNR with Co adatom on the hollow center site by divide-and-conquer approach, and well reproduce the electronic transmission behavior. Our QUAMBO-NEGF method is a new and promising way for electronic transport in large-scale system.