A Computer Investigation of the Effect of High-Resistance Layer Inhomogeneities  on Resistive Switching in a Bismuth Selenide Microcrystal Structure

V. V. Sirotkin; Сироткин В. В.

doi:10.31857/S0544126923700473

A Computer Investigation of the Effect of High-Resistance Layer Inhomogeneities on Resistive Switching in a Bismuth Selenide Microcrystal Structure

Authors: Sirotkin V.V.¹
Affiliations:
1. Institute of Problems of Microelectronics Technology and High-Purity Materials, Russian Academy of Sciences
Issue: Vol 52, No 5 (2023)
Pages: 374-382
Section: МОДЕЛИРОВАНИЕ
URL: https://journal-vniispk.ru/0544-1269/article/view/138561
DOI: https://doi.org/10.31857/S0544126923700473
EDN: https://elibrary.ru/STIQYL
ID: 138561

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Abstract
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Abstract

This paper continues the analysis of the results of experimental studies of resistive switching in a structure based on a bismuth selenide microcrystal (flake). It was demonstrated earlier by simulations that both the presence of several highly resistive states in the examined structure and the peculiarities of transitions to these states can be explained by the specific behavior of numerous conducting channels permeating the surface high-resistance (defective) layer. The sources of the nucleation of these channels are believed to be nanoprotrusions on the clamping control silver electrode embedded in the surface layer. In this study it is shown that volumetric inhomogeneities of the surface layer, i.e., nanoinclusions with higher conductivity, can serve as additional sources of the channels. The simulation confirms that the behavior of the channels forming near such inhomogeneities is similar to that of the channels growing from the metallic nanoprotrusions.

Keywords

memristor, resistive switching, bismuth selenide, computer simulation

About the authors

V. V. Sirotkin

Institute of Problems of Microelectronics Technology and High-Purity Materials, Russian Academy of Sciences

Author for correspondence.
Email: sirotkin@iptm.ru
Chernogolovka, Moscow Region, 142432 Russia

References

Tulina N.A., Borisenko I.Yu., Shmytko I.M., Ionov A.M., Kolesnikov N.N., Borisenko D.N. Induced non-metallicity during resistive switching in structures based on a topological insulator Bi2Se3 // Phys. Lett. A. 2012. V. 376. № 45. P. 3398–3401.
Tulina N.A., Rossolenko A.N., Shmytko I.M., Kolesnikov N.N., Borisenko P.N., Bozhko S.I., Ionov A.M. Rectification and resistive switching in mesoscopic heterostructures based on Bi2Se3 // Materials Letters. 2015. V. 158. P. 403–405.
Тулина Н.А., Россоленко А.Н., Шмытько И.М., Колесников Н.Н., Борисенко Д.Н., Сироткин В.В., Борисенко И.Ю. Частотные свойства гетероструктур на основе селенида висмута в эффектах резистивных переключений. эксперимент, численное моделирование // Известия РАН, сер. Физическая. 2016. Т. 80. № 6. С. 741–743.
Тулина Н.А., Россоленко А.Н., Шмытько И.М., Колесников Н.Н., Борисенко Д.Н., Сироткин В.В., Борисенко И.Ю., Тулин В.А. Исследование динамических эффектов в мемристорных структурах на основе селенида висмута. Нужен ли мемристору “хвост шаттла” // Известия РАН, сер. Физическая. 2019. Т. 83. № 6. С. 813–817.
Zotov A.V., Sirotkin V.V., Il’in A.I., Trofimov O.V., Borisenko P.N., Kolesnikov N.N., Tulin V.A. Multilevel memristive structures based on bismuth selenide microcrystals // Chaos, Solitons and Fractals. 2021. V. 143. P. 110542.
Сироткин В.В., Зотов А.В., Тулин В.А. Компьютерный анализ резистивных переключений в структуре на основе микрокристалла селенида висмута // Микроэлектроника. 2022. Т. 51. № 6. С. 457–465.
Сироткин В.В. Компьютерное исследование влияния неоднородностей металлического контакта на резистивные переключения в гетероструктуре на основе селенида висмута // Микроэлектроника. 2021. Т. 50. № 5. С. 363–369.
Tumelero M.A., Faccio R., Pasa A.A. The role of interstitial native defects in the topological insulator Bi2Se3 // J. Phys. Condens. Matter. 2016. V. 28. № 42. P. 425801.
Callaert C., Bercx M., Lamoen D., Hadermann J. Interstitial defects in the van der Waals gap of Bi2Se3 // Acta Crystallogr. Sect. B Struct. Sci. Cryst. Eng. Mater. 2019. V. 75. № 4. P. 717–732.
Тулина Н.А., Сироткин В.В., Борисенко И.Ю., Иванов А.А. Моделирование резистивных переключений в гетероструктурах на основе оксидных соединений // Известия РАН, сер. Физическая. 2013. Т. 77. № 3. С. 297–299.
Tulina N.A., Borisenko I.Yu., Sirotkin V.V. Bipolar resistive switchings in Bi2Sr2CaCu2O8+δ // Solid State Communications. 2013. V. 170. № 1. P. 48–52.