Supersensitive, Fast-Response Nanowire Sensors by Using Schottky Contacts

Youfan Hu; Jun Zhou; Ping-Hung Yeh; Zhou Li; Te-Yu Wei; Zhong Lin Wang

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Supersensitive, Fast-Response Nanowire Sensors by Using Schottky Contacts

机译：通过使用肖特基触头实现超灵敏，快速响应的纳米线传感器

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A Schottky barrier can be formed at the interface between a metal electrode and a semiconductor. The current passing through the metal-semiconductor contact is mainly controlled by the barrier height and barrier width. In conventional nanodevices, Schottky contacts are usually avoided in order to enhance the contribution made by the nanowires or nanotubes to the detected signal. We present a key idea of using the Schottky contact to achieve supersensitive and fast response nanowire-based nanosensors. We have illustrated this idea on several platforms: UV sensors, biosensors, and gas sensors. The gigantic enhancement in sensitivity of up to 5 orders of magnitude shows that an effective usage of the Schottky contact can be very beneficial to the sensitivity of nanosensors.

机译：肖特基势垒可以形成在金属电极与半导体之间的界面处。流过金属-半导体触点的电流主要由势垒高度和势垒宽度控制。在常规的纳米器件中，通常避免肖特基接触，以增强纳米线或纳米管对检测信号的贡献。我们提出了一个使用肖特基接触实现超灵敏和快速响应的基于纳米线的纳米传感器的关键思想。我们已经在几个平台上说明了这个想法：紫外线传感器，生物传感器和气体传感器。灵敏度高达5个数量级的巨大提高表明，肖特基接触的有效使用可能对纳米传感器的灵敏度非常有益。

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来源
《Advanced Materials》 |2010年第30期|P.3327-3332|共6页
作者
Youfan Hu; Jun Zhou; Ping-Hung Yeh; Zhou Li; Te-Yu Wei; Zhong Lin Wang;
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作者单位

School of Materials Science and Engineering Georgia Institute of Technology Atlanta, Georgia 30332 (USA);

rnSchool of Materials Science and Engineering Georgia Institute of Technology Atlanta, Georgia 30332 (USA);

rnSchool of Materials Science and Engineering Georgia Institute of Technology Atlanta, Georgia 30332 (USA);

rnSchool of Materials Science and Engineering Georgia Institute of Technology Atlanta, Georgia 30332 (USA);

rnSchool of Materials Science and Engineering Georgia Institute of Technology Atlanta, Georgia 30332 (USA);

rnSchool of Materials Science and Engineering Georgia Institute of Technology Atlanta, Georgia 30332 (USA);

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1. Schottky-Contacted Nanowire Sensors [J] . Meng Jianping, Li Zhou Advanced Materials . 2020,第28期

机译：肖特基接触的纳米线传感器
2. Recent Progress in Ohmic/Schottky-Contacted ZnO Nanowire Sensors [J] . XiaoliZhao, RanranZhou, QilinHua, Journal of nanomaterials . 2015,第1期

机译：欧姆/肖特基接触式ZnO纳米线传感器的最新进展
3. Channel length dependent sensitivity of Schottky contacted silicon nanowire field-effect transistor sensors [J] . Shin Kyeong-Sik, Pan Andrew, On Chui Chi Applied Physics Letters . 2012,第12期

机译：肖特基接触式硅纳米线场效应晶体管传感器的沟道长度相关灵敏度
4. Supersensitive Si-integrated tin oxide nanowire-sensors for gas detection [C] . A. Koeck, T. Maier, A. Tischner, Proceedings of the 38th European Solid-State Device Research Conference . 2008

机译：用于气体检测的超灵敏集成硅的氧化锡纳米线传感器
5. Defects and Schottky Contacts in β-Ga2O3: Properties, Influence of Growth Method and Irradiation [D] . Farzana, Esmat. 2019

机译：β-GA2O3中的缺陷和肖特基触点：性质，生长方法和辐照的影响
6. A Self-Powered Fast-Response Ultraviolet Detector of p–n Homojunction Assembled from Two ZnO-Based Nanowires [O] . Yumei Wang, Ying Chen, Wanqiu Zhao, -1

机译：由两根基于ZnO的纳米线组装而成的p–n同质结的自供电快速响应紫外线检测器
7. Recent Progress in Ohmic/Schottky-Contacted ZnO Nanowire Sensors [O] . Xiaoli Zhao, Ranran Zhou, Qilin Hua, 2015

机译：欧姆/肖特基接触ZnO纳米线传感器的最新进展
8. Carbon nanotube Schottky diodes using Ti-Schottky and Pt-ohmic contacts for high frequency applications [R] . Manohara, Harish M., Wong, Eric W., Schlecht, Erich, 2005

机译：碳纳米管肖特基二极管，采用Ti-schottky和pt欧姆触点，适用于高频应用

Supersensitive, Fast-Response Nanowire Sensors by Using Schottky Contacts

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