High mobility in a layered antiferromagnet

Shiming Lei; Jingjing Lin; Yanyu Jia; Mason Gray; Tong Gao; Andreas Topp; Fanny Rodolakis; Jessica L McChesney; Christian R Ast; Ken Burch; Sanfeng Wu; N. Phuan Ong; Leslie Schoop

High mobility in a layered antiferromagnet

ORAL

Abstract

2D, or ultrathin, magnetic materials are being studied as a new paradigm for device design. Intrinsic magnetic order in atomically thin layered materials has been confirmed only recently. Thus far magnetic 2D materials are mostly insulating or semiconducting; none possesses high electronic mobility. A material that exhibits simultaneously magnetic order and high mobility would enhance development of high-speed spintronic devices. In this talk, I will show how we can use chemcial rules to design a materils that can combine high mobility and magnetism and also crysaltiilizes in a strucutre with a vand der Waald gap. I will introduce the LnTe3 family as such highly conducting antiferromagnetic layered materials. In bulk GdTe3, the mobility reaches more than 60,000 cm2/Vs, [3] which is the highest mobility yet recorded for layered magnetic (ferro or antiferro) materials, and is comparable to non-magnetic, high-mobility materials such as black phosphorous. I will also show GdTe3 can be mechanically exfoliated to the monolayer limit, which will allow future investiagtion of the proeties in the 2D limit as well as open avenues for future device design.

[3] arXiv:1903.03111

March 4, 2020, 3:51 PM – March 4, 2020, 4:03 PM

Presenters

Leslie Schoop

Princeton University, Department of Chemistry, Princeton University, Princeton

Authors

Shiming Lei

Princeton University
Jingjing Lin

Princeton University
Yanyu Jia

Princeton University
Mason Gray

Boston College
Tong Gao

Princeton University, Physics, Princeton University
Andreas Topp

MPI for solid state research, Max Planck Institute for Solid State Research
Fanny Rodolakis

Advanced Photon Source, Argonne National Laboratory, Advanced Photon Source
Jessica L McChesney

Advanced Photon Source, Argonne National Laboratory, Advanced Photon Source, Advanced Photon Source, Argonne National Laboratory, Lemont, IL, 60439, USA
Christian R Ast

MPI for solid state research, Max Planck Institute for Solid State Research
Ken Burch

Boston College
Sanfeng Wu

Princeton University
N. Phuan Ong

Princeton University, Physics, Princeton University
Leslie Schoop

Princeton University, Department of Chemistry, Princeton University, Princeton