Extraction of Defects Properties in Dielectric Materials from I-V Curve Hysteresis

P. La Torraca; F. Caruso; A. Padovani; S. Spiga; G. Tallarida; L. Larcher

doi:10.1109/LED.2020.3048079

Extraction of Defects Properties in Dielectric Materials from I-V Curve Hysteresis

P. La Torraca
, F. Caruso
, A. Padovani
, S. Spiga
, G. Tallarida
, L. Larcher

Research output: Contribution to journal › Article › peer-review

Abstract

Atomic defects in high-k materials affect the performance, reliability, variability, and scaling potential of electronic devices. Their characterization is thus of paramount importance, and methods exploiting electrical measurements are highly demanded. In this work we present a novel method for extracting the defect properties from I-V curve hysteresis measured at low electric field in thick metal-insulator-metal (MIM) stacks. The I-V curve hysteresis allows detecting the defects located near the electrode-insulator interfaces and aligned with the stack Fermi level, and extracting their properties. The defects are profiled cross-correlating the information provided by the low-field current hysteresis and the high-field steady-state current. This technique can be applied to MIM stacks fabricated in Back-End-of-Line for capacitors, embedded memories and thin film transistors.

Original language	English
Article number	9310280
Pages (from-to)	220-223
Number of pages	4
Journal	IEEE Electron Device Letters
Volume	42
Issue number	2
DOIs	https://doi.org/10.1109/LED.2020.3048079
Publication status	Published - Feb 2021
Externally published	Yes

Keywords

Atomic defects
charge trapping
defects characterization
high-k dielectric
metal-insulator-metal stack

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10.1109/LED.2020.3048079

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title = "Extraction of Defects Properties in Dielectric Materials from I-V Curve Hysteresis",

abstract = "Atomic defects in high-k materials affect the performance, reliability, variability, and scaling potential of electronic devices. Their characterization is thus of paramount importance, and methods exploiting electrical measurements are highly demanded. In this work we present a novel method for extracting the defect properties from I-V curve hysteresis measured at low electric field in thick metal-insulator-metal (MIM) stacks. The I-V curve hysteresis allows detecting the defects located near the electrode-insulator interfaces and aligned with the stack Fermi level, and extracting their properties. The defects are profiled cross-correlating the information provided by the low-field current hysteresis and the high-field steady-state current. This technique can be applied to MIM stacks fabricated in Back-End-of-Line for capacitors, embedded memories and thin film transistors.",

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AU - Torraca, P. La

AU - Caruso, F.

AU - Padovani, A.

AU - Spiga, S.

AU - Tallarida, G.

AU - Larcher, L.

PY - 2021/2

Y1 - 2021/2

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AB - Atomic defects in high-k materials affect the performance, reliability, variability, and scaling potential of electronic devices. Their characterization is thus of paramount importance, and methods exploiting electrical measurements are highly demanded. In this work we present a novel method for extracting the defect properties from I-V curve hysteresis measured at low electric field in thick metal-insulator-metal (MIM) stacks. The I-V curve hysteresis allows detecting the defects located near the electrode-insulator interfaces and aligned with the stack Fermi level, and extracting their properties. The defects are profiled cross-correlating the information provided by the low-field current hysteresis and the high-field steady-state current. This technique can be applied to MIM stacks fabricated in Back-End-of-Line for capacitors, embedded memories and thin film transistors.

KW - Atomic defects

KW - charge trapping

KW - defects characterization

KW - high-k dielectric

KW - metal-insulator-metal stack

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DO - 10.1109/LED.2020.3048079

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Extraction of Defects Properties in Dielectric Materials from I-V Curve Hysteresis

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Keywords

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