Non-volatile memory transistor based on Pt nanocrystals with negative differencial resistance

We report on the structural and electrical characteristics of non-volatile memory (NVM) transistors and capacitors that use Pt nanocrystals (NCs) for charge storage. The transistor exhibits a memory window of 0.6 V for a sweep of ±2.5 V which increases to 11.5 V at ±10 V. The trapped charges (electr...

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Bibliographic Details
Published in:Journal of applied physics 2012-07, Vol.112 (2)
Main Authors: Mikhelashvili, V., Shneider, Y., Meyler, B., Atiya, G., Yofis, S., Cohen-Hyams, T., Kaplan, W. D., Lisiansky, M., Roizin, Y., Salzman, J., Eisenstein, G.
Format: Article
Language:English
Subjects:
Density
Drains
Electric potential
Nanocrystals
Platinum
Semiconductor devices
Transistors
Voltage
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Summary:We report on the structural and electrical characteristics of non-volatile memory (NVM) transistors and capacitors that use Pt nanocrystals (NCs) for charge storage. The transistor exhibits a memory window of 0.6 V for a sweep of ±2.5 V which increases to 11.5 V at ±10 V. The trapped charges (electron and hole) density for a ±10 V write/erase signal are 2.9 × 1013 cm−2. At small source to drain voltages (VSD) and for delay times longer than 0.1 ms, negative differential resistance (NDR) type behavior of the transistor source to drain ISD-VSD characteristics is revealed. The physical mechanism responsible for the NDR is related to the dynamics of electron injection (by tunneling through the thin bottom oxide) and their trapping by the Pt NCs. The large storage capability and relatively low program/erase voltages as well as the use of Pt, that is a Fab friendly material, make the described NVM transistors promising for practical applications.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.4739714