Issue 30, 2020

FeCl2 monolayer on HOPG: art of growth and momentum filtering effect

Abstract

Magnetic layered transition metal halides have received intensive attention due to the potential magnetic properties in their monolayers. Following the recently reported success of trihalide monolayer ferromagnets, we have achieved the growth of a dihalide, FeCl2, monolayer system on graphite by molecular beam epitaxy. Scanning tunneling microscopy was used in the topographic and spectroscopic study of the monolayer islands at the atomic scale. Results show that the FeCl2 monolayer is an electronvolt-gaped insulator with various twist angles relative to the substrate. The tunneling probability on the monolayer islands is a function of the twist angle with a max/min ratio of ∼2.5. Our direct experimental evidence finds that the FeCl2 monolayer is an efficient momentum, perhaps spin, filtering insulating layer with subnanometer thickness.

Graphical abstract: FeCl2 monolayer on HOPG: art of growth and momentum filtering effect

Article information

Article type
Communication
Submitted
21 Apr 2020
Accepted
13 Jul 2020
First published
16 Jul 2020

Nanoscale, 2020,12, 16041-16045

FeCl2 monolayer on HOPG: art of growth and momentum filtering effect

S. Cai, F. Yang and C. Gao, Nanoscale, 2020, 12, 16041 DOI: 10.1039/D0NR03128C

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