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Low power Zinc-Oxide based charge trapping memory with embedded silicon nanoparticles

机译：具有嵌入式硅纳米粒子的低功耗基于氧化锌的电荷陷阱存储器

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In this work, a bottom-gate charge trapping memory device with Zinc-Oxide (ZnO) channel and 2-nm Si nanoparticles (Si-NPs) embedded in ZnO charge trapping layer is demonstrated. The active layers of the memory device are deposited by atomic layer deposition (ALD) and the Si-NPs are deposited by spin coating. The Si-NPs memory exhibits a threshold voltage (Vt) shift of 6.3 V at an operating voltage of -10/10 V while 2.6 V Vt shift is obtained without nanoparticles confirming that the Si-NPs act as energy states within the bandgap of the ZnO layer. In addition, a 3.4 V Vt is achieved at a very low operating voltage of -1 V/1 V due to the charging of the Si-NPs through Poole-Frenkel emission mechanism at an electric field across the tunnel oxide E 0.36 MV/cm. The results highlight a promising technology for future ultra-low power memory devices. © The Electrochemical Society.

机译：在这项工作中，展示了一种具有氧化锌（ZnO）通道和嵌入ZnO电荷俘获层的2-nm Si纳米粒子（Si-NPs）的底栅电荷俘获存储器件。通过原子层沉积（ALD）沉积存储器件的有源层，并通过旋涂沉积Si-NPs。 Si-NPs存储器在-10/10 V的工作电压下表现出6.3 V的阈值电压（Vt）漂移，而在没有纳米粒子证实Si-NPs充当带隙内的能态的情况下获得2.6 V Vt漂移。 ZnO层。另外，由于在穿过隧道氧化物E> 0.36 MV /的电场下通过Poole-Frenkel发射机制对Si-NP进行充电，因此在-1 V / 1 V的极低工作电压下获得了3.4 V Vt。厘米。结果凸显了未来超低功耗存储设备的有希望的技术。 ©电化学学会。

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Nayfeh A.; Okyay A. K.; El-Atab N.; Ozcan A.; Alkis S.;
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年度 2014
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1. Low power zinc-oxide based charge trapping memory with embedded silicon nanoparticles via poole-frenkel hole emission [J] . El-Atab Nazek, Ozcan Ayse, Alkis Sabri, Applied Physics Letters . 2014,第1期

机译：通过Poole-Frenkel空穴发射实现具有嵌入式硅纳米粒子的低功耗基于氧化锌的电荷陷阱存储
2. Low power zinc-oxide based charge trapping memory with embedded silicon nanoparticles via poole-frenkel hole emission [J] . Nazek El-Atab, Ayse Ozcan, Sabri Alkis, Applied Physics Letters . 2014,第1期

机译：通过Poole-Frenkel空穴发射实现具有嵌入式硅纳米粒子的低功耗基于氧化锌的电荷陷阱存储
3. HfO _2 nanoparticles embedded within a SOG-based oxide matrix as charge trapping layer for SOHOS-type memory applications (Conference Paper) [J] . Molina J., Ortega R., Calleja W., Journal of Non-Crystalline Solids: A Journal Devoted to Oxide, Halide, Chalcogenide and Metallic Glasses, Amorphous Semiconductors, Non-Crystalline Films, Glass-Ceramics and Glassy Composites . 2012,第17期

机译：嵌入在基于SOG的氧化物基质中的HfO _2纳米颗粒作为SOHOS型存储器应用的电荷捕获层（会议论文）
4. Low Power Zinc-Oxide Based Charge Trapping Memory with Embedded Silicon Nanoparticles [C] . A. Nayfeh, A. K. Okyay, N. El-Atab, State-of-the-art program on compound semiconductors 56 . 2014

机译：具有嵌入式硅纳米粒子的低功耗基于氧化锌的电荷陷阱存储器
5. Novel Silicon Nitride-Based Charge Trapping Gate Power Semiconductor Devices. [D] . Zhou, Xianda. 2013

机译：新型基于氮化硅的电荷陷阱栅功率半导体器件。
6. Retention Enhancement in Low Power NOR Flash Array with High-κ–Based Charge-Trapping Memory by Utilizing High Permittivity and High Bandgap of Aluminum Oxide [O] . Young Suh Song, Byung-Gook Park 2021

机译：通过利用氧化铝的高介电常数和高带隙低功率和闪光阵列的低功率和闪光阵列的保留增强
7. Low power zinc-oxide based charge trapping memory with embedded silicon nanoparticles via Poole-Frenkel hole emission [O] . El-Atab N., Ozcan A., Alkis S., Okyay A.K., Nayfeh A. 2014

机译：通过Poole-Frenkel空穴发射，具有嵌入式硅纳米粒子的低功耗基于氧化锌的电荷陷阱存储

Low power Zinc-Oxide based charge trapping memory with embedded silicon nanoparticles

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