Issue 5, 2024

Analytical modelling of the transport in analog filamentary conductive-metal-oxide/HfOx ReRAM devices

Abstract

The recent co-optimization of memristive technologies and programming algorithms enabled neural networks training with in-memory computing systems. In this context, novel analog filamentary conductive-metal-oxide (CMO)/HfOx redox-based resistive switching memory (ReRAM) represents a key technology. Despite device performance enhancements reported in literature, the underlying mechanism behind resistive switching is not fully understood. This work presents the first physics-based analytical model of the current transport and of the resistive switching in these devices. As a case study, analog TaOx/HfOx ReRAM devices are considered. The current transport is explained by a trap-to-trap tunneling process, and the resistive switching by a modulation of the defect density within the sub-band of the TaOx that behaves as electric field and temperature confinement layer. The local temperature and electric field distributions are derived from the solution of the electric and heat transport equations in a 3D finite element ReRAM model. The intermediate resistive states are described as a gradual modulation of the TaOx defect density, which results in a variation of its electrical conductivity. The drift-dynamics of ions during the resistive switching is analytically described, allowing the estimation of defect migration energies in the TaOx layer. Moreover, the role of the electro-thermal properties of the CMO layer is unveiled. The proposed analytical model accurately describes the experimental switching characteristic of analog TaOx/HfOx ReRAM devices, increasing the physical understanding and providing the equations necessary for circuit simulations incorporating this technology.

Graphical abstract: Analytical modelling of the transport in analog filamentary conductive-metal-oxide/HfOx ReRAM devices

Supplementary files

Article information

Article type
Communication
Submitted
16 फरवरी 2024
Accepted
19 मार्च 2024
First published
22 मार्च 2024
This article is Open Access
Creative Commons BY license

Nanoscale Horiz., 2024,9, 775-784

Analytical modelling of the transport in analog filamentary conductive-metal-oxide/HfOx ReRAM devices

D. F. Falcone, S. Menzel, T. Stecconi, M. Galetta, A. La Porta, B. J. Offrein and V. Bragaglia, Nanoscale Horiz., 2024, 9, 775 DOI: 10.1039/D4NH00072B

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