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Interface Passivation and Trap Reduction via a Solution-Based Method for Near-Zero Hysteresis Nanowire Field-Effect Transistors

机译：通过基于溶液的近零磁滞纳米线场效应晶体管的界面钝化和陷阱减少

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In this letter, we demonstrate a solution-based method for a one-step deposition and surface passivation of the as-grown silicon nanowires (Si NWs). Using N,N-dimethylformamide (DMF) as a mild oxidizing agent, the NWs' surface traps density was reduced by over 2 orders of magnitude from 1×10(13) cm(-2) in pristine NWs to 3.7×10(10) cm(-2) in DMF-treated NWs, leading to a dramatic hysteresis reduction in NW field-effect transistors (FETs) from up to 32 V to a near-zero hysteresis. The change of the polyphenylsilane NW shell stoichiometric composition was confirmed by X-ray photoelectron spectroscopy analysis showing a 35% increase in fully oxidized Si4+ species for DMF-treated NWs compared to dry NW powder. Additionally, a shell oxidation effect induced by DMF resulted is a more stable NW FET performance with steady transistor currents and only 1.5 V hysteresis after 1000 h of air exposure

机译：在这封信中，我们演示了一种用于生长的硅纳米线（Si NW）的一步沉积和表面钝化的基于溶液的方法。使用N，N-二甲基甲酰胺（DMF）作为温和的氧化剂，将净水器的表面陷阱密度从原始净水器中的1×10（13）cm（-2）降低了2个数量级以上，降至3.7×10（10））（在DMF处理的NW中为cm（-2）），从而导致NW场效应晶体管（FET）的磁滞从高达32 V降低到接近零的磁滞。 X射线光电子能谱分析证实了聚苯基硅烷NW壳化学计量组成的变化，与干燥的NW粉末相比，DMF处理的NW的完全氧化Si4 +种类增加了35％。此外，DMF引起的外壳氧化效应使NW FET性能更加稳定，晶体管电流稳定，暴露于空气中1000 h后仅有1.5 V滞后

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Constantinou, M; Stolojan, V; Rajeev, KP; Hinder, S; Fisher, B; Bogart, TD; Korgel, BA; Shkunov, M;
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年度 2015
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1. Interface Passivation and Trap Reduction via a Solution-Based Method for Near-Zero Hysteresis Nanowire Field-Effect Transistors [J] . Constantinou Marios, Stolojan Vlad, Rajeev Kiron Prabha, ACS applied materials & interfaces . 2015,第40期

机译：通过基于溶液的近零磁滞纳米线场效应晶体管的界面钝化和陷阱减少
2. A surface-potential-based model for silicon nanowire junctionless field-effect transistors including interface traps [J] . Ye Deng, Xiao-ya Fan, Ru Han, International journal of numerical modelling . 2014,第5a6期

机译：包含界面陷阱的硅纳米线无结场效应晶体管的基于表面电势的模型
3. Immunity to random fluctuations induced by interface trap variability in Si gate-all-around n-nanowire field-effect transistor devices [J] . Sudarsanan Akhil, Nayak Kaushik Journal of Computational Electronics . 2021,第3期

机译：通过界面陷阱变异性在Si门 - 全线N纳米线场效应晶体管器件中的接口陷阱变异性引起的随机波动
4. Noise spectroscopy of traps in silicon nanowire field-effect transistors [C] . Pud S., Li J., Petrychuk M., 2011 21st International Conference on Noise and Fluctuations . 2011

机译：硅纳米线场效应晶体管中陷阱的噪声光谱
5. New platforms for electronic devices: N-channel organic field-effect transistors, complementary circuits, and nanowire transistors. [D] . Yoo, Byungwook. 2007

机译：电子设备的新平台：N沟道有机场效应晶体管，互补电路和纳米线晶体管。
6. Methods for rapid frequency-domain characterization of leakage currents in silicon nanowire-based field-effect transistors [O] . Tomi Roinila, Xiao Yu, Jarmo Verho, 2014

机译：基于硅纳米线的场效应晶体管中泄漏电流的快速频域表征方法
7. Gate Bias Stress Instability and Hysteresis Characteristics of InAs Nanowire Field-Effect Transistors [O] . -1

机译：栅极偏置应力不稳定性和INAS纳米线场效应晶体管的滞后特性

Interface Passivation and Trap Reduction via a Solution-Based Method for Near-Zero Hysteresis Nanowire Field-Effect Transistors

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