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Main Authors: Kirina, Yulia, Sharma, Prakash, Thomas, Wyatt, Anderson, Tristan, Pour, Arya G., Soghomonian, Victoria, Heremans, Jean J.
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2604.00369
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author Kirina, Yulia
Sharma, Prakash
Thomas, Wyatt
Anderson, Tristan
Pour, Arya G.
Soghomonian, Victoria
Heremans, Jean J.
author_facet Kirina, Yulia
Sharma, Prakash
Thomas, Wyatt
Anderson, Tristan
Pour, Arya G.
Soghomonian, Victoria
Heremans, Jean J.
contents A comparison between properties of bismuth thin films deposited at substrate temperatures of 296 K (room temperature) and 77 K (quench condensed) is studied across epitaxial, amorphous, and van der Waals substrates. The experiments demonstrate changes in crystallinity, morphology, and electrical transport arising from the influence of substrate temperature. Moreover, the work highlights changes in grain size, roughness, X-ray diffraction peak intensities, and preferred orientation between the two deposition temperatures. The orientation of the films deposited at 77 K is preferentially (110), compared to (111) for films deposited at room temperature. Films grown at 77 K differ from those deposited at room temperature, exhibiting lower surface roughness but smaller grain size, which leads to increased electrical resistivity in quench condensed films. The decrease of substrate temperature during the deposition appears to induce slightly more strain in depositions on the amorphous and van der Waals substrates than on the epitaxial substrates. Lastly, quench condensed films exhibit lower carrier mobility and lower carrier density compared to room temperature films. This study elucidates previously incompletely understood processes in bismuth deposition and raises new questions regarding growth on van der Waals surfaces.
format Preprint
id arxiv_https___arxiv_org_abs_2604_00369
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Comparative study of room temperature and quench condensed bismuth films: morphology and electronic characteristics
Kirina, Yulia
Sharma, Prakash
Thomas, Wyatt
Anderson, Tristan
Pour, Arya G.
Soghomonian, Victoria
Heremans, Jean J.
Materials Science
A comparison between properties of bismuth thin films deposited at substrate temperatures of 296 K (room temperature) and 77 K (quench condensed) is studied across epitaxial, amorphous, and van der Waals substrates. The experiments demonstrate changes in crystallinity, morphology, and electrical transport arising from the influence of substrate temperature. Moreover, the work highlights changes in grain size, roughness, X-ray diffraction peak intensities, and preferred orientation between the two deposition temperatures. The orientation of the films deposited at 77 K is preferentially (110), compared to (111) for films deposited at room temperature. Films grown at 77 K differ from those deposited at room temperature, exhibiting lower surface roughness but smaller grain size, which leads to increased electrical resistivity in quench condensed films. The decrease of substrate temperature during the deposition appears to induce slightly more strain in depositions on the amorphous and van der Waals substrates than on the epitaxial substrates. Lastly, quench condensed films exhibit lower carrier mobility and lower carrier density compared to room temperature films. This study elucidates previously incompletely understood processes in bismuth deposition and raises new questions regarding growth on van der Waals surfaces.
title Comparative study of room temperature and quench condensed bismuth films: morphology and electronic characteristics
topic Materials Science
url https://arxiv.org/abs/2604.00369