首页> 外文会议>IEEE Conference on Nanotechnology >Nanofluidics through a 30-nm Aperture Nanopipette by applying Electrostatic Field based on the QTF-AFM System

【24h】

Nanofluidics through a 30-nm Aperture Nanopipette by applying Electrostatic Field based on the QTF-AFM System

机译：纳米流体通过基于QTF-AFM系统的静电场施加静电场，通过30nm孔径纳米纤维

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Nanolluidics of the liquid solution through a 30-nm aperture nanopipette was investgated using the QTF-A FM system. Used pulled nanopipette was, attached 'on the edge of QTF to control the distance between the tip and substrate. Monitored QTF signal was changed by naturally formed water meniscus's force as tip approached to the sample within 10nm. After forming of water, electric field was applied for the purpose of a filled solution's extrusion onto the surface. Measured the fluid speed was 43.5 um/s and spread area was 136.6 um~2 after 5 seconds. During the experiment, temperature was 22°C and humidity was 20.1 %. Checked thermal drift was 0.3 pm/s.

机译：使用QTF-A FM系统对液体溶液的纳米液通过30-NM孔径纳米纤维进行。用过的拉动纳米纤维在QTF的边缘上安装，以控制尖端和基板之间的距离。由于在10nm内的尖端接近样品，因此通过自然形成的水弯月面的力改变了被监测的QTF信号。在形成水之后，施加电场以填充溶液挤压到表面上。测量的流体速度为43.5μm/ s，5秒后，涂抹面积为136.6μm〜2。在实验期间，温度为22℃，湿度为20.1％。检查的热漂移为0.3μm/ s。

著录项

来源
《IEEE Conference on Nanotechnology》|2010年||共4页
会议地点
作者
Sangmin An; Gunn Kim; Geol Moon; Manhee Lee; Junghoon Jahng; Kunyoung Lee; Wonho Jhe;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类 TB383-53;
关键词
Nanofluidics; Nanopipette; Electrostatic Field;

机译：纳米流体;纳米锥体;静电场;

相似文献

外文文献
中文文献
专利

1. A micro-aperture electrostatic field mill based on MEMS technology [J] . Horenstein MN., Stone PR. Journal of Electrostatics . 2001,第0期

机译：基于MEMS技术的微孔静电场磨
2. Force fields of charged particles in micro-nanofluidic preconcentration systems [J] . Lingyan Gong, Wei Ouyang, Zirui Li, AIP Advances . 2017,第12期

机译：微纳流预浓缩系统中带电粒子的力场
3. Fibre Fabry - Perot cavity-based aperture probe for near-field optical microscopy systems [J] . Kulchin Yu.N., Vitrik O.B., Bezverbnyi A.V., Quantum electronics . 2011,第3期

机译：Fiber Fabry-用于近场光学显微镜系统的基于Perot腔的孔径探针
4. Nanofluidics through a 30-nm Aperture Nanopipette by applying Electrostatic Field based on the QTF-AFM System [C] . Sangmin An, Gunn Kim, Geol Moon, IEEE Conference on Nanotechnology . 2010

机译：纳米流体通过基于QTF-AFM系统的静电场施加静电场，通过30nm孔径纳米纤维
5. Multiple aperture electrostatic lens employed with vacuum microelectronic field emission devices. [D] . Kane, Robert C. 2001

机译：真空微电子场发射器件采用的多孔径静电透镜。
6. Removing systematic errors in interionic potentials of mean force computed in molecular simulations using reaction-field-based electrostatics [O] . Andrij Baumketner -1

机译：使用基于反应场的静电消除分子模拟中计算出的平均力的离子势的系统误差
7. Force fields of charged particles in micro-nanofluidic preconcentration systems [O] . Lingyan Gong, Wei Ouyang, Zirui Li, 2017

机译：微纳流体预浓缩系统中带电粒子的力场
8. FEASIBILITY OF APPLYING FIELD-ION EMISSION TO ELECTROSTATIC ROCKET ENGINES [R] . Stankiewicz, N. 1963

机译：应用场发射在静电火箭发动机上的可行性

Nanofluidics through a 30-nm Aperture Nanopipette by applying Electrostatic Field based on the QTF-AFM System

摘要

著录项

相似文献

相关主题

期刊订阅