Manipulation and trapping of semiconducting ZnO nanoparticles into nanogap electrodes by dielectrophoresis technique

Sanjeev Kumar; Young-Kyo Seo; Gil-Ho Kim

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Manipulation and trapping of semiconducting ZnO nanoparticles into nanogap electrodes by dielectrophoresis technique

机译：介电电泳技术将半导体ZnO纳米粒子操纵和捕获到纳米间隙电极中

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The assembly of ZnO nanoparticles into nanogap electrodes using ac dielectrophoresis (DEP) process is reported. DEP parameters such as frequency, voltage, and time were optimized to assemble minimum number of nanoparticles into nanogap electrodes. Frequency variation study revealed that positive DEP is active at frequencies less than 500 kHz; whereas negative DEP starts dominating at 1 MHz. The fabricated device exhibited a nonlinear I-V characteristic and under ultraviolet (UV) illumination a remarkable change in conductivity of one order of magnitude was observed. The results show the potential for realizing future optoelectronic devices such as miniaturized UV sensor.

机译：报道了使用交流介电电泳（DEP）工艺将ZnO纳米颗粒组装成纳米间隙电极。优化了DEP参数，例如频率，电压和时间，以将最少数量的纳米颗粒组装到纳米间隙电极中。频率变化研究表明，正DEP在小于500 kHz的频率下有效；而负DEP在1 MHz时开始占主导地位。所制造的器件表现出非线性的I-V特性，并且在紫外线（UV）照射下，观察到电导率有一个数量级的显着变化。结果表明，有可能实现未来的光电设备，例如小型UV传感器。

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来源
《Applied Physicsletters》 |2009年第15期|203-205|共3页
作者
Sanjeev Kumar; Young-Kyo Seo; Gil-Ho Kim;
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作者单位

Department of Electronic and Electrical Engineering, Sungkyunkwan University, Suwon 440-746, Republic of Korea Sungkyunkwan Advanced Institute of Nanotechnology, Sungkyunkwan University,Suwon 440-746, Republic of Korea;

Department of Electronic and Electrical Engineering, Sungkyunkwan University, Suwon 440-746, Republic of Korea Sungkyunkwan Advanced Institute of Nanotechnology, Sungkyunkwan University,Suwon 440-746, Republic of Korea;

Department of Electronic and Electrical Engineering, Sungkyunkwan University, Suwon 440-746, Republic of Korea Sungkyunkwan Advanced Institute of Nanotechnology, Sungkyunkwan University,Suwon 440-746, Republic of Korea;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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Manipulation and trapping of semiconducting ZnO nanoparticles into nanogap electrodes by dielectrophoresis technique

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