Growth of InBi on InSb(100) via Molecular Beam Epitaxy

The binary bismides (AlBi, GaBi, and InBi) are materials that are a part of the familiar III-V material class but have properties that are distinct from the typical nitrides, phosphides, arsenides, and antimonides. Specifically, the binary bismides are all predicted to be topologically non-trivial materials that can take on the zincblende crystal structure. In addition, these materials all have narrow bandgaps that are suitable for mid-infrared optoelectronics. Successful growth of single-crystalline zincblende bismide films has the potential to revolutionize mid-wave and long-wave infrared devices as well as add topologically non-trivial materials to the III-V family. Here, we present growth of InBi on InSb(100) substrates using molecular beam epitaxy and characterization of these films using x-ray diffraction and scanning electron microscopy. Additionally, we report attempts at growth of GaBi on InSb(100) substrates and characterization of these films using x-ray diffraction and transmission electron microscopy. This work demonstrates growth of InBi on InSb(100) substrates, providing further insight into the bismides material system.

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Work Title Growth of InBi on InSb(100) via Molecular Beam Epitaxy
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Open Access
Creators
  1. Molly McDonough
  2. Yuxi Zhang
  3. Nasim Alem
  4. Stephanie Law
License CC BY-NC-ND 4.0 (Attribution-NonCommercial-NoDerivatives)
Work Type Article
Acknowledgments
  1. DOE Grant No. 500000023786
Publication Date 2025
DOI doi:10.26207/h5gf-j405
Publisher Identifier (DOI)
  1. 10.1116/6.0004418
Deposited January 22, 2025

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Version 1
published

  • Created

    January 22, 2025 13:40 by sal6149

  • Updated

    January 22, 2025 13:40 by [unknown user]

  • Updated Description, Publication Date Show Changes

    January 22, 2025 13:40 by sal6149

    Description
    • The binary bismides (AlBi, GaBi, and InBi) are materials that are a part of the familiar III-V material class but have properties that are distinct from the typical nitrides, phosphides, arsenides, and antimonides. Specifically, the binary bismides are all predicted to be topologically non-trivial materials that can take on the zincblende crystal structure. In addition, these materials all have narrow bandgaps that are suitable for mid-infrared optoelectronics. Successful growth of single-crystalline zincblende bismide films has the potential to revolutionize mid-wave and long-wave infrared devices as well as add topologically non-trivial materials to the III-V family. Here, we present growth of InBi on InSb(100) substrates using molecular beam epitaxy and characterization of these films using x-ray diffraction and scanning electron microscopy. Additionally, we report attempts at growth of GaBi on InSb(100) substrates and characterization of these films using x-ray diffraction and transmission electron microscopy. This work demonstrates growth of InBi on InSb(100) substrates, providing further insight into the bismides material system.
    Publication Date
    • 2025
  • Updated Acknowledgments Show Changes

    January 22, 2025 13:41 by sal6149

    Acknowledgments
    • DOE Grant No. 500000023786
  • Added Creator Molly McDonough

    January 22, 2025 13:41 by sal6149

  • Added Creator Yuxi Zhang

    January 22, 2025 13:41 by sal6149

  • Added Creator Nasim Alem

    January 22, 2025 13:41 by sal6149

  • Added Creator Stephanie Law

    January 22, 2025 13:41 by sal6149

  • Added Growth of InBi on InSb_main.pdf

    January 22, 2025 13:44 by sal6149

  • Added SI_Growth of InBi on InSb.pdf

    January 22, 2025 13:44 by sal6149

  • Added GM1_20240226A GaBi 150C_2thetaomega.xlsx

    January 22, 2025 13:44 by sal6149

  • Added GM1_20240226A GaBi 150C_2thetaomega.xrdml

    January 22, 2025 13:44 by sal6149

  • Added GM1_202420222B 1to1 GaBi at 100C_2theta_omega.xlsx

    January 22, 2025 13:44 by sal6149

  • Added GM1_202420222B 1to1 GaBi at 100C_2theta_omega.xrdml

    January 22, 2025 13:44 by sal6149

  • Added TEM Images.png

    January 22, 2025 13:44 by sal6149

  • Added GM1_20240220B 1to1 GaBi at 200C_2ThetaOmega.xrdml

    January 22, 2025 13:44 by sal6149

  • Added XRD_GM1_20240220B 1to1 GaBi at 200C_2ThetaOmega.xlsx

    January 22, 2025 13:44 by sal6149

  • Added MBE3-240621A-MM-20MIN-2ThetaOmega (1).xlsx

    January 22, 2025 13:44 by sal6149

  • Added MBE3-240621A-MM-20MIN-2ThetaOmega.xrdml

    January 22, 2025 13:44 by sal6149

  • Added MBE3-240621A-MM_CBS_002_center_002.tif

    January 22, 2025 13:44 by sal6149

  • Added MBE3-240621A-MM_center_2024-06-25_16-29-50 (1).docx

    January 22, 2025 13:44 by sal6149

  • Added 8000X_CBS_008.tif

    January 22, 2025 13:44 by sal6149

  • Added EDS_Center_Site 1_2024-07-19_17-42-37.docx

    January 22, 2025 13:44 by sal6149

  • Added MBE3-240701A-MM_2thetaomega (1).xlsx

    January 22, 2025 13:44 by sal6149

  • Added MBE3-240701A-MM_2thetaomega.xrdml

    January 22, 2025 13:44 by sal6149

  • Updated License Show Changes

    January 22, 2025 13:46 by sal6149

    License
    • https://creativecommons.org/licenses/by-nc-nd/4.0/
  • Published

    January 22, 2025 13:46 by sal6149

  • Updated

    January 22, 2025 21:04 by [unknown user]

Version 2
published

  • Created

    February 24, 2025 11:37 by mrm6464

  • Deleted XRD_GM1_20240220B 1to1 GaBi at 200C_2ThetaOmega.xlsx

    February 24, 2025 11:37 by mrm6464

  • Deleted TEM Images.png

    February 24, 2025 11:37 by mrm6464

  • Deleted MBE3-240701A-MM_2thetaomega.xrdml

    February 24, 2025 11:37 by mrm6464

  • Deleted MBE3-240621A-MM_CBS_002_center_002.tif

    February 24, 2025 11:38 by mrm6464

  • Deleted MBE3-240621A-MM-20MIN-2ThetaOmega (1).xlsx

    February 24, 2025 11:38 by mrm6464

  • Deleted GM1_202420222B 1to1 GaBi at 100C_2theta_omega.xlsx

    February 24, 2025 11:38 by mrm6464

  • Deleted 8000X_CBS_008.tif

    February 24, 2025 11:38 by mrm6464

  • Deleted EDS_Center_Site 1_2024-07-19_17-42-37.docx

    February 24, 2025 11:38 by mrm6464

  • Deleted GM1_20240220B 1to1 GaBi at 200C_2ThetaOmega.xrdml

    February 24, 2025 11:39 by mrm6464

  • Deleted GM1_20240226A GaBi 150C_2thetaomega.xlsx

    February 24, 2025 11:39 by mrm6464

  • Deleted GM1_20240226A GaBi 150C_2thetaomega.xrdml

    February 24, 2025 11:39 by mrm6464

  • Deleted GM1_202420222B 1to1 GaBi at 100C_2theta_omega.xrdml

    February 24, 2025 11:39 by mrm6464

  • Deleted MBE3-240621A-MM-20MIN-2ThetaOmega.xrdml

    February 24, 2025 11:39 by mrm6464

  • Deleted MBE3-240621A-MM_center_2024-06-25_16-29-50 (1).docx

    February 24, 2025 11:39 by mrm6464

  • Deleted MBE3-240701A-MM_2thetaomega (1).xlsx

    February 24, 2025 11:39 by mrm6464

  • Deleted Growth of InBi on InSb_main.pdf

    April 01, 2025 08:28 by sal6149

  • Deleted SI_Growth of InBi on InSb.pdf

    April 01, 2025 08:28 by sal6149

  • Added Growth of InBi on InSb_March26_Rev.pdf

    April 01, 2025 08:29 by sal6149

  • Added SI_Growth of InBi on InSb_Revised.pdf

    April 01, 2025 08:29 by sal6149

  • Added Data - Growth of InBi on InSb(100) via Molecular Beam Epitaxy (MBE).zip

    April 01, 2025 08:29 by sal6149

  • Added README.md.txt

    April 01, 2025 08:29 by sal6149

  • Published

    April 01, 2025 08:29 by sal6149

  • Updated

    April 01, 2025 22:04 by [unknown user]

Version 3
published

  • Created

    April 11, 2025 09:10 by sal6149

  • Deleted Growth of InBi on InSb_March26_Rev.pdf

    April 11, 2025 09:10 by sal6149

  • Added JVA25-AR-MBE2025-00060.pdf

    April 11, 2025 09:11 by sal6149

  • Updated Publisher Identifier (DOI) Show Changes

    April 11, 2025 09:12 by sal6149

    Publisher Identifier (DOI)
    • 10.1116/6.0004418
  • Published

    April 11, 2025 09:12 by sal6149

  • Updated

    April 11, 2025 22:04 by [unknown user]