Issue 21, 2024

A fluorite-structured HfO2/ZrO2/HfO2 superlattice based self-rectifying ferroelectric tunnel junction synapse

Abstract

A self-rectifying ferroelectric tunnel junction that employs a HfO2/ZrO2/HfO2 superlattice (HZH SL) combined with Al2O3 and TiO2 layers is proposed. The 6 nm-thick HZH SL effectively suppresses the formation of non-ferroelectric phases while increasing remnant polarization (Pr). This enlarged Pr modulates the energy barrier configuration, consequently achieving a large on/off ratio of 1273 by altering the conduction mechanism from off-state thermal injection to on-state Fowler–Nordheim tunneling. Moreover, the asymmetric Schottky barriers at the top TiN/TiO2 and bottom HfO2/Pt interfaces enable a self-rectifying property with a rectifying ratio of 1550. Through calculations and simulations it is found that the device demonstrates potential for achieving an integrated array size exceeding 7k while maintaining a 10% read margin, and shows potential for application in artificial synapses for neuromorphic computing with an image recognition accuracy above 92%. Finally, the self-rectifying behavior and device-to-device variation reliability are confirmed in a 9 × 9 crossbar array structure.

Graphical abstract: A fluorite-structured HfO2/ZrO2/HfO2 superlattice based self-rectifying ferroelectric tunnel junction synapse

Supplementary files

Article information

Article type
Communication
Submitted
01 May 2024
Accepted
25 Sep 2024
First published
26 Sep 2024

Mater. Horiz., 2024,11, 5251-5264

A fluorite-structured HfO2/ZrO2/HfO2 superlattice based self-rectifying ferroelectric tunnel junction synapse

D. H. Lee, J. E. Kim, Y. H. Cho, S. Kim, G. H. Park, H. Choi, S. Y. Lee, T. Kwon, D. H. Kim, M. Jeong, H. W. Jeong, Y. Lee, S. Lee, J. H. Yoon and M. H. Park, Mater. Horiz., 2024, 11, 5251 DOI: 10.1039/D4MH00519H

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