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Ferroelectrics Volume 538, 2019 - Issue 1: Proceedings of the Joint International 14th Russia/CIS/Baltic/Japan Symposium on Ferroelectricity (RCBJSF-2018), Part I of II
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SECTION B: Crystal Structure and Atomic Dynamics

Polarization switching, dielectric, structural and elastic properties of 2-Methylbenzimidazole crystals and films

E. V. BalashovaDivision of Physics of Dielectrics and Semiconductors, Ioffe Institute, St. Petersburg, Russia; Correspondence[email protected]
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F. B. SvinarevDivision of Physics of Dielectrics and Semiconductors, Ioffe Institute, St. Petersburg, Russia; View further author information
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A. V. AnkudinovDivision of Physics of Dielectrics and Semiconductors, Ioffe Institute, St. Petersburg, Russia; ;Division of Solid State Physics, Ioffe Institute, St. Petersburg, Russia; View further author information
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G. A. PankovaLaboratory of Polymer Sorbents and Carriers for Biotechnology, Institute of Macromolecular Compounds, St. Petersburg, Russia; View further author information
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G. A. LityaginInstitute of Physics, Nanotechnology and Telecommunications, Peter the Great St. Petersburg Polytechnic University, St. Petersburg, RussiaView further author information
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T. S. KunkelDivision of Physics of Dielectrics and Semiconductors, Ioffe Institute, St. Petersburg, Russia; ;Institute of Physics, Nanotechnology and Telecommunications, Peter the Great St. Petersburg Polytechnic University, St. Petersburg, RussiaView further author information
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B. B. KrichevtsovDivision of Physics of Dielectrics and Semiconductors, Ioffe Institute, St. Petersburg, Russia; View further author information
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Pages 74-82 | Received 14 May 2018, Accepted 31 Oct 2018, Published online: 17 May 2019
 
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Abstract

Single crystals and films of 2-methylbenzimidazole were grown from ethanol solution by slow cooling and evaporation method. 3D XRD study confirms pseudo tetragonal structure of MBI crystals. MBI films have a texture formed by spherulite type blocks with in-plane orientation of pseudo-tetragonal [001] axis. MBI crystals and films surface were studied by atomic force microscopy to evaluate Young’s modulus and surface potential distributions related to small charge of domain walls. Dielectric hysteresis loops were simulated in frames of particular case of KAI model. Strong decrease of activation field with temperature increase indicates a potential ferroelectric transition above melting point.

Acknowledgments

Authors thank Dr. R. Burkovsky for discussion of XRD data.

Disclosure statement

No potential conflict of interest was reported by the authors.

Additional information

Funding

This work was supported in part by the RFBR under Grant N 16-02-00399.

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