Author:
Park Seunghyun,Kang Soonmin,Kim Haeri,Lee Ki Hoon,Kim Pilkwang,Sim Sangwoo,Lee Nahyun,Karuppannan Balamurugan,Kim Junghyun,Kim Jonghyeon,Sim Kyung Ik,Coak Matthew J.,Noda Yukio,Park Cheol-Hwan,Kim Jae Hoon,Park Je-Geun
Abstract
AbstractWith the advanced investigations into low-dimensional systems, it has become essential to find materials having interesting lattices that can be exfoliated down to monolayer. One particular important structure is a kagome lattice with its potentially diverse and vibrant physics. We report a van-der-Waals kagome lattice material, Pd3P2S8, with several unique properties such as an intriguing flat band. The flat band is shown to arise from a possible compact-localized state of all five 4d orbitals of Pd. The diamagnetic susceptibility is precisely measured to support the calculated susceptibility obtained from the band structure. We further demonstrate that Pd3P2S8 can be exfoliated down to monolayer, which ultimately will allow the possible control of the localized states in this two-dimensional kagome lattice using the electric field gating.
Funder
The Institute for Basic Science (IBS) in Korea
The National Research Foundation of Korea (NRF) grants funded by the Ministry of Science and ICT (MSIT) of Korea
Publisher
Springer Science and Business Media LLC
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