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Charge effects of ultrafine FET with nanodot type floating gate

机译：具有纳米点型浮栅的超细FET的电荷效应

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Metal nanoparticles (NPs) embedded in junctionless field-effect transistors (JL-FETs) with a length of 3.6 nm are fabricated and demonstrated. The anisotropic wet etching of a silicon-on-insulator (SOI) substrate was utilized to form V-grooves and to define nanometer-scale channel. Metal NPs are selectively placed onto bottom of V-groove using the Bio nano process (BNP). The JL-FET is applied to floating gate memory and used to investigate an impact on the short channel by charge trap of NPs. Low-voltage operation and broad threshold voltage shift as memory behavior are appeared in 3.6 nm channel length. It is expected that the JL-FETs can overcome the scaling limitations in floating gate memory, while the charge trap cause major problems in the sub 10 nm region.

机译：制作并演示了嵌入在无结场效应晶体管（JL-FET）中的金属纳米颗粒（NPs），其长度为3.6 nm。绝缘体上硅（SOI）衬底的各向异性湿法刻蚀用于形成V形槽并定义纳米级通道。使用生物纳米工艺（BNP）将金属NP选择性地放置在V型槽的底部。 JL-FET应用于浮栅存储器，用于研究NP的电荷陷阱对短沟道的影响。在3.6 nm的通道长度中出现了低电压操作和宽阈值电压随存储行为而变化的现象。可以预期，JL-FET可以克服浮栅存储器中的缩放限制，而电荷陷阱会在10 nm以下区域引起重大问题。

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《International Workshop on Active-Matrix Flatpanel Displays and Devices 》|2016年|29-30|共2页
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Takahiko Ban; Shinji Migita; Yukiharu Uraoka; Shin-ichi Yamamoto;
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Nanoparticles; Nanoscale devices; Proteins; Nanobioscience; Field effect transistors; Nonvolatile memory; Silicon-on-insulator;

机译：纳米颗粒;纳米器件;蛋白质;纳米生物科学;场效应晶体管;非易失性存储器;绝缘体上硅;

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专利

1. Estimation of charge effects of ultrafine channel utilizing junctionless transistor with nanodot-type floating gate [J] . Ban Takahiko, Migita Shinji, Uenuma Mutsunori, Japanese journal of applied physics . 2017 ,第3S期

机译：利用具有纳米点型浮栅的无结晶体管估算超细沟道的电荷效应
2. Ultrashort intrinsic-like channel FETs with nanodot-type floating gate utilizing biomaterial [J] . Ben Takahiko, Migita Shinji, Uenuma Mutsunori, Japanese journal of applied physics . 2018 ,第12期

机译：利用生物材料的具有纳米点型浮栅的超短本征型沟道FET
3. Floating nanodot gate memory fabrication with biomineralized nanodot as charge storage node [J] . Atsushi Miura, Yukiharu Uraoka, Takashi Fuyuki, Journal of Applied Physics . 2008 ,第7pa1期

机译：以生物矿化纳米点为电荷存储节点的浮式纳米点栅存储器制造
4. Charge effects of ultrafine FET with nanodot type floating gate [C] . Takahiko Ban, Shinji Migita, Yukiharu Uraoka, International Workshop on Active-Matrix Flatpanel Displays and Devices . 2016

机译：超细FET与纳米型浮置的电荷效应
5. Investigation of anisotropic charge transport in conjugated polymer based organic FETs by controlling the molecular orientation in large area ribbon-shaped floating films [D] . Tripathi Atul Shankar Mani 2019

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8. Method for Estimating the Probability of Floating Gate Prompt Charge Loss in a Radiation Environment. [R] . Edmonds, L. D. 2016

机译：一种估算辐射环境中浮栅提示电荷损失概率的方法。

Charge effects of ultrafine FET with nanodot type floating gate

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