期刊论文详细信息
Sensors | |
Nanopipette/Nanorod-Combined Quartz Tuning Fork–Atomic Force Microscope | |
Wonho Jhe1  Sangmin An2  | |
[1]Astronomy, Seoul National University, Seoul 08826, Korea | |
[2] | |
[3]Department of Physics & | |
关键词: nanopipette; nanorod; QTF–AFM; nanolithography; nanoscratching; | |
DOI : 10.3390/s19081794 | |
来源: DOAJ |
【 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.【 授权许可】
Unknown