Issue 7, 2025
From the journal:

Physical Chemistry Chemical Physics

Unusual phase transition mechanism induced by shear strain in Si2BN planar structures and comparison with graphene: an ab initio DFT study

Zacharias G. Fthenakis ORCID logo *ab  and  Madhu Menon*cd  

* Corresponding authors

a Istituto Nanoscienze, Consiglio Nazionale delle Ricerche (CNR), 56127 Pisa, Italy
E-mail: zacharias.fthenakis@nano.cnr.it, fthenak@eie.gr

b National Enterprise for nanoScience and nanoTechnology (NEST), Scuola Normale Superiore, 56127 Pisa, Italy

c Conn Center for Renewable Energy Research, University of Louisville, Louisville, KY 40292, USA
E-mail: super250@g.uky.edu

d Department of Physics and Astronomy, University of Kentucky, Lexington, KY 40506, USA

Abstract

Using ab initio methods we show that by applying shear strain, a phase transition occurs between the AB and the AA Si2BN planar sheets. Si–Si bonds stretch and bend towards the strain direction, causing an internal displacement of the remaining almost unchanged Si2BN strips. As the shear strain increases, Si–Si bonds weaken and break, while leading to new Si–Si bond formation and causing the phase transition. The planar structure is maintained throughout the application of the strain, with no buckling, a phenomenon not reported so far in other 2D materials. Performing the same calculations for graphene we show that its structural deformations are strikingly different and result in buckling.

Graphical abstract: Unusual phase transition mechanism induced by shear strain in Si2BN planar structures and comparison with graphene: an ab initio DFT study

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Article information

DOI
https://doi.org/10.1039/D4CP04258A
Article type
Communication
Submitted
07 Nov 2024
Accepted
29 Jan 2025
First published
30 Jan 2025
This article is Open Access
Creative Commons BY-NC license

Phys. Chem. Chem. Phys., 2025,27, 3552-3557

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Unusual phase transition mechanism induced by shear strain in Si2BN planar structures and comparison with graphene: an ab initio DFT study

Z. G. Fthenakis and M. Menon, Phys. Chem. Chem. Phys., 2025, 27, 3552 DOI: 10.1039/D4CP04258A

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