Memristive Switching and Density-Functional Theory Calculations in Double Nitride Insulating Layers

Memristive Switching and Density-Functional Theory Calculations in Double Nitride Insulating Layers

In this paper, we demonstrate a device using a Ni/SiN/BN/p+-Si structure with improved performance in terms of a good ON/OFF ratio, excellent stability, and low power consumption when compared with single-layer Ni/SiN/p+-Si and Ni/BN/p+-Si devices. Its switching mechanism can be explained by trappin...

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Veröffentlicht in:Micromachines (Basel) 2022-09, Vol.13 (9), p.1498
Hauptverfasser: Khan, Sobia Ali, Hussain, Fayyaz, Chung, Daewon, Rahmani, Mehr Khalid, Ismail, Muhammd, Mahata, Chandreswar, Abbas, Yawar, Abbas, Haider, Choi, Changhwan, Mikhaylov, Alexey N., Shchanikov, Sergey A., Yang, Byung-Do, Kim, Sungjun
Format: Artikel
Sprache:eng
Schlagworte:
Analysis
Boron
boron nitride
Chemical vapor deposition
Density functional theory
Depletion
Electrodes
Flash memory
Insulating layers
Memory (Computers)
Monolayers
Nitrides
Power consumption
resistive switching
self-rectification
Silicon
silicon nitride
Specific gravity
Switching
Trapping
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Beschreibung
Zusammenfassung:In this paper, we demonstrate a device using a Ni/SiN/BN/p+-Si structure with improved performance in terms of a good ON/OFF ratio, excellent stability, and low power consumption when compared with single-layer Ni/SiN/p+-Si and Ni/BN/p+-Si devices. Its switching mechanism can be explained by trapping and de-trapping via nitride-related vacancies. We also reveal how higher nonlinearity and rectification ratio in a bilayer device is beneficial for enlarging the read margin in a cross-point array structure. In addition, we conduct a theoretical investigation for the interface charge accumulation/depletion in the SiN/BN layers that are responsible for defect creation at the interface and how this accounts for the improved switching characteristics.
ISSN:2072-666X
2072-666X
DOI:10.3390/mi13091498