Comprehensive Investigation of Constant Voltage Stress Time-Dependent Breakdown and Cycle-to-Breakdown Reliability in Y-Doped and Si-Doped HfO2 Metal-Ferroelectric-Metal Memory

Comprehensive Investigation of Constant Voltage Stress Time-Dependent Breakdown and Cycle-to-Breakdown Reliability in Y-Doped and Si-Doped HfO2 Metal-Ferroelectric-Metal Memory

In this study, we comprehensively investigate the constant voltage stress (CVS) time-dependent breakdown and cycle-to-breakdown while considering metal-ferroelectric-metal (MFM) memory, which has distinct domain sizes induced by different doping species, i.e., Yttrium (Y) (Sample A) and Silicon (Si)...

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Veröffentlicht in:Nanomaterials (Basel, Switzerland) Switzerland), 2023-07, Vol.13 (14), p.2104
Hauptverfasser: Chang, Ting-Yu, Wang, Kuan-Chi, Liu, Hsien-Yang, Hseun, Jing-Hua, Peng, Wei-Cheng, Ronchi, Nicolò, Celano, Umberto, Banerjee, Kaustuv, Van Houdt, Jan, Wu, Tian-Li
Format: Artikel
Sprache:eng
Schlagworte:
Breakdown
Communication
domain size
Electric potential
Electrodes
Failure analysis
ferroelectric
Ferroelectric materials
Ferroelectricity
Ferroelectrics
Hafnium oxide
Lifetime
Measurement techniques
Metals
reliability
Silicon
Stability
Time dependence
Voltage
Yttrium
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Zusammenfassung:In this study, we comprehensively investigate the constant voltage stress (CVS) time-dependent breakdown and cycle-to-breakdown while considering metal-ferroelectric-metal (MFM) memory, which has distinct domain sizes induced by different doping species, i.e., Yttrium (Y) (Sample A) and Silicon (Si) (Sample B). Firstly, Y-doped and Si-doped HfO2 MFM devices exhibit domain sizes of 5.64 nm and 12.47 nm, respectively. Secondly, Si-doped HfO2 MFM devices (Sample B) have better CVS time-dependent breakdown and cycle-to-breakdown stability than Y-doped HfO2 MFM devices (Sample A). Therefore, a larger domain size showing higher extrapolated voltage under CVS time-dependent breakdown and cycle-to-breakdown evaluations was observed, indicating that the domain size crucially impacts the stability of MFM memory.
ISSN:2079-4991
2079-4991
DOI:10.3390/nano13142104