Epitaxial Growth and Electronic structure measurement of a New Two-Dimensional Binary Alloy with Honeycomb Lattice: Sn<sub>2</sub>Bi

ORAL

Abstract

After the discovery of graphene and it’s exotic physical properties such as Dirac cones in electronic structures due to specific honeycomb lattice, several new mono-elemental 2D materials with honeycomb lattice such as silicene, germanene, stanene, borophene, antimonene have been realized. Most of these 2D materials are grown on metal substrates which limits further studies of transport and applications. In this work, we successfully grow a new novel 2D binary alloy Sn2Bi on Si(111) surface. As the most famous semiconductor, using Silicon as substrate can both meet the requirements of intrinsic property preservation and transport measurement. Also Si(111) surface has the same symmetry (C3v) with honey comb lattice. Combined with STM and DFT calculations, we confirm a honeycomb lattice in this 2D alloy with one hexagonal ring consisting two Bi and four Sn atoms. The STS measurements reveal a 0.8 eV gap and near-free electronic states on this 2D alloy, which are further reproduced by ARPES and tr-ARPES measurements and DFT calculations.

Presenters

  • Hang Li

    • Chinese Academy of Scienes (CAS)

Authors

  • Hang Li

    • Chinese Academy of Scienes (CAS)

  • Lan Chen

    • Institute of Physics, Chinese Academy of Sciences
    • Chinese Academy of Scienes (CAS)
    • Institute of Physics, The Chinese Academy of Sciences

  • Kehui Wu

    • Institute of Physics, Chinese Academy of Sciences
    • Chinese Academy of Scienes (CAS)
    • Institute of Physics, The Chinese Academy of Sciences

  • Jian Gou

    • Chinese Academy of Scienes (CAS)
    • Institute of Physics, The Chinese Academy of Sciences

  • Yong Xu

    • Tsinghua University

  • Tian Qian

    • Chinese Academy of Scienes (CAS)
    • Institute of Physics, Chinese Academy of Sciences
    • Institute of Physics,Chinese Academy of Scienes (CAS)

  • Hui Li

    • Beijing Advanced Innovation Center for Soft Matter Science and Engineering, Beijing University of Chemical Technology
    • Chinese Academy of Scienes (CAS)

  • Longjuan Kong

    • Institute of Physics, Chinese Academy of Sciences
    • Chinese Academy of Scienes (CAS)

  • Peng Cheng

    • Chinese Academy of Scienes (CAS)

  • bingyu xia

    • Tsinghua University

  • Hong Ding

    • Chinese Academy of Scienes (CAS)
    • Institute of Physics, Chinese Academy of Sciecses
    • Institute of Physics,Chinese Academy of Scienes (CAS)

  • Yukiaki Ishida

    • the University of Tokyo