Physics – Condensed Matter – Materials Science
Scientific paper
2010-09-28
Physics
Condensed Matter
Materials Science
26 pages, 5 Figure, first submitted at November 23th, 2009
Scientific paper
Based on the first-principles plane wave calculations, we studied the functionalization of the two-dimensional single layer MoS$_2$ structure via adatom adsorption and vacancy defect creation. Minimum energy adsorption sites are determined for sixteen different adatoms, each gives rise to diverse properties. Bare, single layer MoS$_2$, which is normally a nonmagnetic, direct band gap semiconductor, attains a net magnetic moment upon adsorption of specific transition metal atoms, as well as silicon and germanium atoms. The localized donor and acceptor states in the band gap expand the utilization of MoS$_2$ in nanoelectronics and spintronics. Specific adatoms, like C and O, attain significant excess charge upon adsorption to single layer MoS$_{2}$ which may be useful for its tribological applications. Each MoS$_{2}$-triple vacancy created in a single layer MoS$_{2}$ gives rise to a net magnetic moment, while other vacancy defects related with Mo and S atoms do not influence the nonmagnetic ground state. Present results are also relevant for the surface of graphitic MoS$_2$.
Ataca Can
Ciraci Salim
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