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Atomic-scale tuning of ultrathin memristors

Engineering and Technology

Atomic-scale tuning of ultrathin memristors

R. Goul, A. Marshall, et al.

Researchers Ryan Goul, Angelo Marshall, Sierra Seacat, Hartwin Peelaers, Francisco C. Robles Hernandez, and Judy Z. Wu have achieved a breakthrough with atomically tunable Pd/M1/M2/Al ultrathin memristors, showcasing exciting exponential increases in high state resistance and on/off ratios. This work opens up pathways for designing high-performance memristive devices at unprecedented scales.... show more
Abstract
Continuous device downsizing and circuit complexity have motivated atomic-scale tuning of memristors. Herein, we report atomically tunable Pd/M1/M2/Al ultrathin (<2.5 nm M1/M2 bilayer oxide thickness) memristors using in vacuo atomic layer deposition by controlled insertion of MgO atomic layers into pristine Al2O3 atomic layer stacks guided by theory predicted Fermi energy lowering leading to a higher high state resistance (HRS) and a reduction of oxygen vacancy formation energy. Excitingly, memristors with HRS and on/off ratio increasing exponentially with M1/M2 thickness in the range 1.2-2.4 nm have been obtained, illustrating tunneling mechanism and tunable on/off ratio in the range of 10-10^4. Further dynamic tunability of on/off ratio by electric field is possible by designing of the atomic M2 layer and M1/M2 interface. This result probes ways in the design of memristors with atomically tunable performance parameters.
Publisher
Communications Physics
Published On
Oct 26, 2022
Authors
Ryan Goul, Angelo Marshall, Sierra Seacat, Hartwin Peelaers, Francisco C. Robles Hernandez, Judy Z. Wu
DOI
https://doi.org/10.1038/s42005-022-01037-4
Tags
memristors
atomic layer deposition
high state resistance
tunneling mechanism
oxygen vacancy
dynamic tunability
Fermi energy

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