5.1 Å EOT and low leakage TiN/Al2O3/Hf0.5Zr0.5O2/Al2O3/TiN heterostructure for DRAM capacitor

Luo, Zhijun; Du, Xinzhe; Gao, Hui; Lin, Yue; Yan, Wensheng; Shen, Shengchun; Yin, Yuewei; Li, Xiaoguang

doi:10.1063/5.0145824

Cited by 5 publications

(1 citation statement)

References 48 publications

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“…Due to the increasing demand for dense memory design, the scaling down of BEOLtransistors is highly required. However, the sub-threshold property and reliability issues of a-IGZO-FET arise with the scaling-down due to the inferior gate controllability [7], [8], [9]. Variations in material composition and fabrication process contribute to the changes in density of states, and further induce reliability issues in sub-threshold region.…”

Section: Introductionmentioning

confidence: 99%

Physics-Based Compact Model of Independent Dual-Gate BEOL-Transistors for Reliable Capacitorless Memory

Xu,

Chen,

et al. 2024

IEEE J. Electron Devices Soc.

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Capacitorless DRAM architectures based on Back-End-of-Line (BEOL)-transistors are promising for longretention, high-density and low-power 3D DRAM solutions due to its low leakage, operational flexibility, and monolithic integration capability. Different from classical silicon-based devices, in-depth studies on the performances of nanoscale multigate transistors (e.g., a-InGaZnO-FET) are still barely conducted for physical description, due to the complicated multi-gating principle, finite-size effects on transport, increased variation sources and enlarged parasitic effect. Hence, high-performance multi-nanoscale (down to ~ 50 nm) dual-gate a-IGZO transistors are fabricated, and a physical compact model is developed based on the surface potential for dual-gated coupling and the disordered transport with finite-size-correction. The short channel behaviors on sub-threshold swing, mobility and threshold voltage are investigated, and contact effects are validated by the transfer-line method (TLM). Regarding the specific challenge of dual-gate alignment, possible misalignment and parasitic effects on multi-device fluctuations are important of large-scale circuit design and analyzed by TCAD simulations. Besides, the bias-temperature instability (BTI) has been comprehensively investigated. In awareness of the above effects, this model bridges fabrication-based material properties and structural parameters, assisting in a threshold fluctuationresistant operation scheme for capacitorless multi-bit memory, showing a great potential in future monolithic integration circuit design using BEOL-transistor.

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Section: Introductionmentioning

confidence: 99%

Physics-Based Compact Model of Independent Dual-Gate BEOL-Transistors for Reliable Capacitorless Memory

Xu,

Chen,

et al. 2024

IEEE J. Electron Devices Soc.

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Exploring the Morphotropic Phase Boundary in HfO₂‐Based Ferroelectrics for Advanced High‐k Dielectrics

Oh,

Jang,

Habibi

et al. 2024

Adv Materials Technologies

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With the increasing demand for high‐performance computing and storage solutions, industries are under pressure to deliver enhanced‐density, high‐speed, cost‐efficient, and reliable memory technologies. The development of advanced high dielectric constant (high‐k) dielectrics for dynamic random‐access memory (DRAM) remains essential yet challenging, with a need for further advancements on scaling and mass production compatibility. A significant advancement has been the discovery of morphotropic phase boundary (MPB) in HfO2‐based ferroelectrics, offering a potential solution to enduring issues in DRAM capacitor technology. The superior performance of MPB‐based HfxZr1‐xO2 film systems as high‐k dielectrics (k > 60) provides a promising avenue for advancing DRAM technology. This review article aims to propel DRAM development by detailing the principles of MPB‐based high‐k dielectrics, outlining crucial material and engineering parameters, and addressing the need for precise evaluation and analysis, which have previously been neglected. It also discusses the ongoing challenges and future directions in this field.

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Ultralow operating voltage for energy conversion performance in Hf1–Zr O2 thin films

Hou,

Wang,

Luo

et al. 2024

Journal of Materiomics

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5.1 Å EOT and low leakage TiN/Al2O3/Hf0.5Zr0.5O2/Al2O3/TiN heterostructure for DRAM capacitor

Cited by 5 publications

References 48 publications

Physics-Based Compact Model of Independent Dual-Gate BEOL-Transistors for Reliable Capacitorless Memory

Physics-Based Compact Model of Independent Dual-Gate BEOL-Transistors for Reliable Capacitorless Memory

Exploring the Morphotropic Phase Boundary in HfO₂‐Based Ferroelectrics for Advanced High‐k Dielectrics

Ultralow operating voltage for energy conversion performance in Hf1–Zr O2 thin films

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5.1 Å EOT and low leakage TiN/Al2O3/Hf0.5Zr0.5O2/Al2O3/TiN heterostructure for DRAM capacitor

Cited by 5 publications

References 48 publications

Physics-Based Compact Model of Independent Dual-Gate BEOL-Transistors for Reliable Capacitorless Memory

Physics-Based Compact Model of Independent Dual-Gate BEOL-Transistors for Reliable Capacitorless Memory

Exploring the Morphotropic Phase Boundary in HfO2‐Based Ferroelectrics for Advanced High‐k Dielectrics

Ultralow operating voltage for energy conversion performance in Hf1–Zr O2 thin films

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Exploring the Morphotropic Phase Boundary in HfO₂‐Based Ferroelectrics for Advanced High‐k Dielectrics