Remote Oxygen Scavenging of the Interfacial Oxide Layer in Ferroelectric Hafnium–Zirconium Oxide-Based Metal–Oxide–Semiconductor Structures

Tasneem, Nujhat; Kashyap, Harshil; Chae, Kisung; Park, Chinsung; Lee, Ping-Che; Lombardo, Sarah; Afroze, Nashrah; Tian, Mengkun; Kumarasubramanian, Harish; Hur, Jae; Chen, Hang; Chern, Winston; Yu, Shimeng; Bandaru, Prabhakar R.; Ravichandran, Jayakanth; Cho, Kyeongjae; Kacher, Josh; Kummel, Andrew C.; Khan, Asif Islam

doi:10.1021/acsami.2c11736

Cited by 13 publications

(7 citation statements)

References 33 publications

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“…In this work, Ti/Pt as a top contact layer is applied for IL optimization. Due to the high binding energy of Ti-O [26], oxygen in the bottom and top TiON IL will be removed, illustrated in Fig.…”

Section: B Optimization Of Hzo Capacitor For High Immunitymentioning

confidence: 99%

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Hafnia-Based High-Disturbance-Immune and Selector-Free Cross-Point FeRAM

Fu,

Cao,

Zheng

et al. 2024

IEEE Trans. Electron Devices

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This study presents an experimental demonstration of 3-D-stackable hafnia-based selectorfree cross-point FeRAM, with enhanced disturbance immunity achieved through design technology cooptimization (DTCO). Considering ferroelectric (FE) dynamics, the disturbance behavior of FE devices has been systematically and quantitatively examined using the proposed "pulse-disturb" analysis method. Through the optimization of grain uniformity and interfacial layers, the fabricated Hf 0.5 Zr 0.5 O 2 (HZO) FE capacitor exhibits large grain size exceeding 30 nm with record best disturbance immunity among FE-HZO. It also achieves a significant improvement of MW in selector-free FeRAM operation and enhanced remnant polarization (P r ) of approximately 23 µC/cm 2 , low operation voltage (2.4 V), high endurance (10 13 cycles), long retention capability (ten years), and excellent potential for 3-D stacking. Moreover, to address the multiple pulses disturb issue, a novel "disturb-recovery" pulsing method is proposed, showing multidisturb-free operation for practical cross-point array applications. Based on the above strategies, 1-kbit selector-free cross-point FeRAM array is experimentally demonstrated with successful read/write operation, indicating its great potential for high-density and lowpower memory applications.

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Section: B Optimization Of Hzo Capacitor For High Immunitymentioning

confidence: 99%

“…. This process is called remote oxygen scavenge (ROS) and can decrease the IL thickness, which will increase the voltage drop on FE layer [26]. Fig.…”

Section: (A)mentioning

confidence: 99%

Hafnia-Based High-Disturbance-Immune and Selector-Free Cross-Point FeRAM

Fu,

Cao,

Zheng

et al. 2024

IEEE Trans. Electron Devices

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“…These techniques can be categorized as direct or remote scavenging if the scavenging elements are incorporated in or isolated from the high- k layer, respectively. Many studies have attempted to remove the low- k IL in HfO 2 -based FeFETs using scavenging techniques. ,, Lee et al reduced the thickness of the low- k ILs in Al:HfO 2 -based MFIS capacitors using a remote scavenging technique with TiN/Ti/TiN top electrodes. As is evident from the HRTEM image in Figure (a), the top TiN/Ti/TiN electrode decomposes SiO 2 during annealing at 800 °C.…”

Section: Semiconductor–ferroelectric Interfacesmentioning

confidence: 99%

“…Many studies have attempted to remove the low-k IL in HfO 2 -based FeFETs using scavenging techniques. 97,102,103 Lee et al 97 Oxygen vacancies, which tend to migrate to the interface between the Al:HfO 2 and SiO 2 layers, play a role in decomposing the SiO 2 layer, simultaneously serving as mediators for transporting scavenged oxygen to the upper TiN layer. The capacitor, including the TiN/Ti/TiN top electrode, shows a lower 2V c value and a higher 2P r value compared to the case without the Ti capacitor and also maintains stable endurance characteristics up to 10 9 cycles.…”

Section: Strategies Tomentioning

confidence: 99%

Perspective on Ferroelectric Devices: Lessons from Interfacial Chemistry

et al. 2023

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Ferroelectric fluorite-structured oxide thin films have attracted increased interest from both academia and industry because of their superior scalability�in which their ferroelectric properties can be maintained even below 10 nm thickness�and excellent compatibility with current complementary metal−oxide− semiconductor technology. Regarding recent efforts to downscale the technology node of semiconductor processing, the emergence of ferroelectric properties in fluorite-structured oxide thin films at small length scales is of particular interest. As the length scale of the fluorite-structured oxide thin films reaches the atomic scale, the contribution of the interfacial layer to the properties naturally increases. In particular, the quality and type of interfacial layer, as well as the reaction chemistry in response to the electric field, play a major role in determining the properties of the devices. Consequently, understanding the chemistry of ferroelectric−electrode and ferroelectric−semiconductor interfaces is crucial for their use in industrial applications in the near future. In this context, emerging semiconductor devices based on fluorite-structured oxide ferroelectrics, including ferroelectric field-effect transistors, ferroelectric random-access memories, and ferroelectric tunnel junctions, and the impact of interface chemistry in the devices are reviewed in detail.

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“…Kashir et al proposed W/Pt that accounts for the advantages of both a low TEC and high work function (WF) to extend FE endurance [11]. Tasneem et al [18] proposed using Ti as an oxygen scavenging layer (OSL) (Pt/Ti/TiN/HZO/Si) to capture the native oxide (SiO 2 ) on the silicon substrate. The reduction of this interfacial layer can improve remnant polarization.…”

Section: Introductionmentioning

confidence: 99%

Tunable defect engineering of Mo/TiON electrode in angstrom-laminated HfO₂/ZrO₂ ferroelectric capacitors towards long endurance and high temperature retention

Wang,

Liu,

Chen

et al. 2024

Nanotechnology

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A novel defect control approach based on laminated HfO2/ZrO2 with multifunctional TiN/Mo/TiOxNy electrode is proposed to significantly improve the endurance and data retention in HZO-based ferroelectric capacitor. The O-rich interface reduces leakage current and prolong the endurance up to 1E11 cycles while retaining a 2Pr value of 34 (μC/cm^2) at 3.4MV/cm. Using first-principles calculations and experiments, we demonstrate that the enhancement of endurance is ascribed to the higher migration barrier of oxygen vacancies within the laminated HZO film and higher work function of MoOx/TiOxNy between top electrode and the insulating oxide. This 2.5-nm-thick TiOxNy barrier further increase the grain size of HZO, lowering the activation field and thus improving polarization reversal speed. This interfacial layer further decreases the overall capacitance, increases the depolarization field, thereby enhancing the data retention. By fitting the data using the Arrhenius equation, we demonstrate a 10-year data retention is achieved at 109.6 °C, surpassing traditional SS-HZO of 78.2 °C with a 450°C RTA (required by backend-of-the-line). This work elucidates that interfacial engineering serves as a crucial technology capable of resolving the endurance, storage capability, and high-temperature data retention issues for ferroelectric memory.

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Remote Oxygen Scavenging of the Interfacial Oxide Layer in Ferroelectric Hafnium–Zirconium Oxide-Based Metal–Oxide–Semiconductor Structures

Cited by 13 publications

References 33 publications

Hafnia-Based High-Disturbance-Immune and Selector-Free Cross-Point FeRAM

Hafnia-Based High-Disturbance-Immune and Selector-Free Cross-Point FeRAM

Perspective on Ferroelectric Devices: Lessons from Interfacial Chemistry

Tunable defect engineering of Mo/TiON electrode in angstrom-laminated HfO₂/ZrO₂ ferroelectric capacitors towards long endurance and high temperature retention

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Remote Oxygen Scavenging of the Interfacial Oxide Layer in Ferroelectric Hafnium–Zirconium Oxide-Based Metal–Oxide–Semiconductor Structures

Cited by 13 publications

References 33 publications

Hafnia-Based High-Disturbance-Immune and Selector-Free Cross-Point FeRAM

Hafnia-Based High-Disturbance-Immune and Selector-Free Cross-Point FeRAM

Perspective on Ferroelectric Devices: Lessons from Interfacial Chemistry

Tunable defect engineering of Mo/TiON electrode in angstrom-laminated HfO2/ZrO2 ferroelectric capacitors towards long endurance and high temperature retention

Contact Info

Product

Resources

About

Tunable defect engineering of Mo/TiON electrode in angstrom-laminated HfO₂/ZrO₂ ferroelectric capacitors towards long endurance and high temperature retention