First-principles study of monolayer Co adsorption on monolayer MoS2

Wuzhang Fang; Po-Hao Chang; Kirill Belashchenko

First-principles study of monolayer Co adsorption on monolayer MoS2

POSTER

Abstract

Functionalization of two-dimensional materials by using the magnetic proximity effect could be utilized for spin injection and detection in spintronic devices. Here we study the adsorption of a monolayer of cobalt on monolayer MoS2 using first-principles calculations and the LDA+U method. The preferred adsorption site is on top of Mo for small U and on top of S for U > 4 eV. The value of U calculated using the linear response method is 4.2 eV, and therefore Co is predicted to adsorb on top of S. The ground state is found to be antiferromagnetic.

^*Funding: NSF MRSEC (DMR-1420645)

Presenters

Wuzhang Fang
- University of Nebraska
- Department of Physics, Univ of Nebraska - Lincoln

Authors

Wuzhang Fang
- University of Nebraska
- Department of Physics, Univ of Nebraska - Lincoln
Po-Hao Chang
- Department of Physics, Univ of Nebraska - Lincoln
Kirill Belashchenko
- Department of Physics and Astronomy, University of Nebraska-Lincoln
- University of Nebraska
- Physics, Univ of Nebraska - Lincoln
- Department of Physics, Univ of Nebraska - Lincoln
- Department of Physics and Astronomy, Univ of Nebraska - Lincoln