Article 2 – Bending-induced isostructural transitions in ultrathin layers of van der Waals ferrielectrics

Abstract:

Using Landau-Ginzburg-Devonshire (LGD) phenomenological approach we analyze the bending-induced re-distribution of electric polarization and field, elastic stresses and strains inside ultrathin layers of van der Waals ferrielectrics. We consider a CuInP₂S₆ (CIPS) thin layer with fixed edges and suspended central part, the bending of which is induced by external forces. The unique aspect of CIPS is the existence of two ferrielectric states, FI1 and FI2, corresponding to big and small polarization values, which arise due to the specific four-well potential of the eighth-order LGD functional. When the CIPS layer is flat, the single-domain FI1 state is stable in the central part of the layer, and the FI2 states are stable near the fixed edges. With an increase of the layer bending below the critical value, the sizes of the FI2 states near the fixed edges decreases, and the size of the FI1 region increases. When the bending exceeds the critical value, the edge FI2 states disappear being substituted by the FI1 state, but they appear abruptly near the inflection regions and expand as the bending increases. The bending-induced isostructural FI1-FI2 transition is specific for the bended van der Waals ferrielectrics described by the eighth (or higher) order LGD functional with consideration of linear and nonlinear electrostriction couplings. The isostructural transition, which is revealed in the vicinity of room temperature, can significantly reduce the coercive voltage of ferroelectric polarization reversal in CIPS nanoflakes, allowing for the curvature-engineering control of various flexible nanodevices.

Title: Bending-induced isostructural transitions in ultrathin layers of van der Waals ferrielectrics

Authors: Anna N. Morozovska, Eugene A. Eliseev, Yongtao Liu, Kyle P. Kelley, Ayana Ghosh, Ying Liu, Jinyuan Yao, Nicholas V. Morozovsky, Andrei L Kholkin, Yulian M. Vysochanskii, Sergei V. Kalinin

Reference: Acta Materialia Volume 263, 15 January 2024, 119519

DOI: https://doi.org/10.1016/j.actamat.2023.119519

Article 12 – Flexocoupling-induced phonons and ferrons in van der Waals ferroelectrics

2025-08-05

Abstract: The contribution of flexoelectric coupling to the long-range order parameter fluctuations in ferroics can be critically important to the ferron dispersion and related polar, pyroelectric, and electrocaloric (EC) properties. Here, we calculate analytically the dispersion relations of soft optic and acoustic flexocoupling-induced phonons and ferrons by incorporating the flexoelectric

Article 11 – Quantitative 3D Optical Birefringence in Peptide Bioelectrets

2025-08-05

Abstract: Peptide nanotubes (PNTs) are bioelectrets that exhibit piezoelectricity, pyroelectricity, ferroelectricity, and birefringence. Birefringence is an optical property that can be used to determine the degree of order, orientation, size, and shape of PNTs. In this work, a custom-built optical apparatus is used to quantitatively measure birefringence in three dimensions

Book Chapter 1 – Organic and Biological Piezoelectric Materials

2025-06-06

Abstract: Natural organic piezoelectric materials have been the subject of intense research over the last couple of decades. This interest is due to their remarkable piezoelectric characteristics, biocompatibility, biodegradability, outstanding mechanical properties, and cost-effective fabrication processes. This chapter presents an extensive overview about the recent advances in natural organic piezoelectric

Article 10 – Electromechanical coupling in polaronic ceria

2025-04-11

Abstract: Oxygen-defective metal oxides like cerium oxides exhibit giant electrostriction and field-induced piezoelectricity due to a dynamic electrosteric interplay between oxygen defects, V··O, and the fluorite lattice. While such mechanisms are generally attributed to oxygen vacancies, recent results also highlight that trapped cationic defects, Ce′Ce, i.e. small polarons, can contribute

Article 9 – Strain-Polarization Coupling in the Low-Dimensional Van der Waals Ferrielectrics

2025-04-07

Abstract: Using the Landau-Ginzburg-Devonshire phenomenological approach we explore the strain-polarization coupling in the low-dimensional van der Waals ferrielectrics. We evolve the analytical model of the piezoelectric susceptibility of the material in response to the periodic strain modulation, such as caused by a surface acoustic wave. Numerical calculations are performed for

Article 8 – Coexistence and interplay of two ferroelectric mechanisms in Zn1-xMgxO