接触材料对金纳米棒I-V特性的影响

2007 2nd IEEE International Conference on Nano/Micro Engineered and Molecular Systems Pub Date : 2007-04-23 DOI:10.1109/NEMS.2007.351973

Kyu-Jin Kim, Byoung-Ho Kang, Do-Eok Kim, W. Kang, Jae-Ho Kim, D. Kwon, Jung-Hee Lee, Shin-Won Kang

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引用次数: 0

摘要

采用电化学沉积(ECD)法制备了金纳米棒。ECD方法的优点是可以利用具有偶极子的各种材料制备纳米棒，并且可以制备异质结构的纳米棒。纳米棒具有良好的圆形，高7微米，厚200纳米。为了测量纳米棒的特性，在氧化层上制作了测量电极图案。考虑到纳米棒的功函数，提出了随机捕获多个纳米棒的电极图案，并选择了金和钛作为电极图案的材料。基本上，Au的I-V特性是在欧姆接触状态下测量的。金纳米棒的电阻约为280 ω，在0.54 V以上未测到I-V曲线。光学显微镜下证实，金纳米棒是由加热或电流过大等特定因素造成的。

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I-V Characteristic of the Au Nanorod According to the Contact Materials

The authors had manufactured the Au nanorod by electrochemical deposition (ECD) method. ECD method has many advantages that it can make the nanorod using the various materials having the dipole and it can make the hetero structure of nanorod. The nanorods have a good round shape with 7 mum height and 200 nm thick. To measure the characteristics of the nanorod, measurement electrode pattern is fabricated on the oxide layer. Electrode pattern was suggested to catch many nanorods randomly and materials of the pattern were used by the gold and titanium considering the work function of the nanorods. Basically, I-V characteristic of the Au was measured in the state of ohmic contact. The resistance of the Au nanorod was about 280 Omega and I-V curve was not measured over the 0.54 V. Confirming the optical microscope, Au nanorod was broken by the specific factor such as heating or excessive current.

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2007 2nd IEEE International Conference on Nano/Micro Engineered and Molecular Systems

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