Nanopipette/Nanorod-Combined Quartz Tuning Fork–Atomic Force Microscope

机译：纳米移液器/纳米棒组合石英音叉–原子力显微镜

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摘要

We introduce a nanopipette/quartz tuning fork (QTF)–atomic force microscope (AFM) for nanolithography and a nanorod/QTF–AFM for nanoscratching with in situ detection of shear dynamics during performance. Capillary-condensed nanoscale water meniscus-mediated and electric field-assisted small-volume liquid ejection and nanolithography in ambient conditions are performed at a low bias voltage (~10 V) via a nanopipette/QTF–AFM. We produce and analyze Au nanoparticle-aggregated nanowire by using nanomeniscus-based particle stacking via a nanopipette/QTF–AFM. In addition, we perform a nanoscratching technique using in situ detection of the mechanical interactions of shear dynamics via a nanorod/QTF–AFM with force sensor capability and high sensitivity.

机译：我们介绍了用于纳米光刻的纳米移液器/石英音叉（QTF）–原子力显微镜（AFM）和用于纳米划痕的nanorod / QTF–AFM，并在性能期间原位检测剪切动力学。通过纳米移液器/ QTF-AFM在低偏置电压（〜10 V）下，在环境条件下进行毛细管冷凝的纳米级水弯液面介导和电场辅助的小体积液体喷射和纳米光刻。我们通过纳米吸液管/ QTF-AFM使用基于纳米弯月面的粒子堆叠技术来生产和分析金纳米粒子聚集的纳米线。另外，我们通过纳米棒/ QTF-AFM具有力传感器功能和高灵敏度的剪切动力学力学相互作用的原位检测，执行了纳米划痕技术。

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期刊名称 Sensors (Basel Switzerland)
作者
Sangmin An; Wonho Jhe;
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作者单位

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年(卷),期 2019(19),8
年度 2019
页码 1794
总页数 12
原文格式 PDF
正文语种
中图分类
关键词
nanopipette nanorod QTF–AFM nanolithography nanoscratching;

机译：纳米移液器;纳米棒;QTF-AFM;纳米光刻;纳米划痕;

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专利

1. Position-resolved Surface Characterization and Nanofabrication Using an Optical Microscope Combined with a Nanopipette/Quartz Tuning Fork Atomic Force Microscope [J] . Sangmin An, Baekman Sung, Haneol Noh, Nano-Micro Letters . 2014,第1期

机译：使用光学显微镜结合纳米移液器/石英音叉原子力显微镜的位置分辨表面表征和纳米加工
2. Position-resolved Surface Characterization and Nanofabrication Using an Optical Microscope Combined with a Nanopipette/Quartz Tuning Fork Atomic Force Microscope [J] . Sangmin An, Baekman Sung, Haneol Noh, 纳微快报：英文版 . 2014,第001期

机译：使用光学显微镜结合纳米移液器/石英音叉原子力显微镜的位置分辨表面表征和纳米加工
3. Nanopipette combined with quartz tuning fork-atomic force microscope for force spectroscopy/microscopy and liquid delivery-based nanofabrication [J] . Review of Scientific Instruments . 2014,第3期

机译：纳米移液器结合石英音叉-原子力显微镜进行力谱/显微镜和基于液体输送的纳米加工
4. Optical Microscope combined with the Nanopipette-based Quartz Tuning Fork - Atomic Force Microscope for Nanolithography [C] . Sangmin An, Corey Stambaugh, Soyoung Kwon, Nanoengineering: Fabrication, properties, optics, and devices X . 2013

机译：光学显微镜与基于纳米吸管的石英音叉相结合-用于纳米光刻的原子力显微镜
5. Interaction force microscopy based on quartz tuning fork force sensor [D] . Qin, Yexian 2007

机译：基于石英调谐叉力传感器的相互作用力显微镜
6. Atomic Force Microscopy Sidewall Imaging with a Quartz Tuning Fork Force Sensor [O] . Danish Hussain, Yongbing Wen, Hao Zhang, 2018

机译：带有石英音叉力传感器的原子力显微镜侧壁成像
7. Position-resolved Surface Characterization and Nanofabrication Using an Optical Microscope Combined with a Nanopipette/Quartz Tuning Fork Atomic Force Microscope [O] . Sangmin An, Baekman Sung, Haneol Noh, 2014

机译：使用光学显微镜结合纳米移液器/石英音叉原子力显微镜的位置分辨表面表征和纳米加工
8. Double-Ended Tuning Fork Quartz Accelerometer [R] . Kass, W. J., Snow, G. S. 1986

机译：双端音叉石英加速度计

Nanopipette/Nanorod-Combined Quartz Tuning Fork–Atomic Force Microscope

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