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Dirac Signature in Germanene on Semiconducting Substrate

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posted on 2024-11-16, 05:09 authored by Jincheng Zhuang, Chen Liu, Zhiyong Zhou, Gilberto Casillas-Garcia, Haifeng Feng, Xun XuXun Xu, Jiaou Wang, Weichang Hao, Xiaolin WangXiaolin Wang, Shi DouShi Dou, Zhenpeng Hu, Yi Du
2D Dirac materials supported by nonmetallic substrates are of particular interest due to their significance for the realization of the quantum spin Hall effect and their application in field-effect transistors. Here, monolayer germanene is successfully fabricated on semiconducting germanium film with the support of a Ag(111) substrate. Its linear-like energy-momentum dispersion and large Fermi velocity are derived from the pronounced quasiparticle interference patterns in a √3 x √3 superstructure. In addition to Dirac fermion characteristics, the theoretical simulations reveal that the energy gap opens at the Brillouin zone center of the √3 x √3 restructured germanene, which is evoked by the symmetry-breaking perturbation potential. These results demonstrate that the germanium nanosheets with √3 x √3 germanene can be an ideal platform for fundamental research and for the realization of high-speed and low-energy-consumption field-effect transistors.

Funding

Design and exploration of novel p-block materials for visible light photocatalysis

Australian Research Council

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Multifunctional 2D materials for sustainable energy applications

Australian Research Council

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Two-dimensional plasmonic heterogeneous nanostructures for photocatalysis

Australian Research Council

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An aberration corrected analytical Transmission Electron Microscope for nanoscale characterisation of materials

Australian Research Council

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History

Citation

Zhuang, J., Liu, C., Zhou, Z., Casillas-Garcia, G., Feng, H., Xu, X., Wang, J., Hao, W., Wang, X., Dou, S. Xue., Hu, Z. & Du, Y. (2018). Dirac Signature in Germanene on Semiconducting Substrate. Advanced Science, 5 (7), 1800207-1-1800207-8.

Journal title

Advanced Science

Volume

5

Issue

7

Language

English

RIS ID

127382

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