Controlling structure and interfacial interaction of monolayer TaSe<sub>2</sub> on bilayer graphene

Sung-Kwan Mo; Hyobeom Lee; Hayoon Im; Byoung Ki Choi; Kyoungree Park; Yi Chen; Wei Ruan; Yong Zhong; Ji-Eun Lee; Hyejin Ryu; Michael F Crommie; Zhi-Xun Shen; Choongyu Hwang; Jinwoong Hwang

Controlling structure and interfacial interaction of monolayer TaSe<sub>2</sub> on bilayer graphene

ORAL

Abstract

We report a controlled growth of monolayer TaSe₂ on a bilayer graphene substrate using molecular beam epitaxy. By carefully optimizing the growth control, we were able to isolate two structural phases, 1H and 1T, and investigated their electronic structure using angle-resolved photoemission spectroscopy (ARPES). In addition to the expected differences in the electronic band structure between 1H and 1T phases, our ARPES results reveal significant differences in charge transfer and band hybridization at the interface, which is much more pronounced in 1H-TaSe₂. The distinct interfacial interactions are attributed to the differences in work function and interlayer distance.

March 19, 2025, 7:12 PM – March 19, 2025, 7:24 PM

Publication: Nano Convergence 11, 14 (2024)

Presenters

Sung-Kwan Mo

Lawrence Berkeley National Laboratory

Authors

Sung-Kwan Mo

Lawrence Berkeley National Laboratory
Hyobeom Lee

Kangwon National University
Hayoon Im

Pusan National University
Byoung Ki Choi

Lawrence Berkeley National Laboratory
Kyoungree Park

Kangwon National University
Yi Chen

Peking University
Wei Ruan

Fudan University, Fudan Univ
Yong Zhong

Stanford University
Ji-Eun Lee

University of California, Lawrence Berekely National Laboratory, Lawrence Berkeley National Laboratory
Hyejin Ryu

Korea Institute of Science and Technology
Michael F Crommie

University of California, Berkeley
Zhi-Xun Shen

Stanford University
Choongyu Hwang

Pusan National University
Jinwoong Hwang

Kangwon National University