Add to ORKG[[abstract]]The atomic force microscope (AFM) is a newly developed high resolution microscopy technique which is capable of measuring a nano-scale pattern, nanofabrication, data storage and material analysis in the mechanical, chemical and biological fields. The nano-probe is the most critical component of the AFM, and it consists of three parts: a sharp tip, a cantilever beam and a supporting base. The tip must be sharp enough to measure the surface topography with a high resolution. The cantilever beam must have the appropriate spring constant and resonant frequency for the type of operation selected. The supporting base must be of a suitable size for loading into the probe head. Therefore, depending on the various applications, the nano-...
The most commonly used materials in all commercially available high-aspect-ratio (HAR) nanowire's (N...
Nanoscale multipoint structure-function analysis is essential for deciphering the complexity of mult...
Accurate mechanical characterization by the atomic force microscope at the highest spatial resolutio...
The effect of the tip bluntness of AFM probes on their effective rake angle during AFM-based nanosca...
Abstract As it is important to understand the basic mechanics principle in nanofabrication process, ...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2015.Cata...
Copyright © 2014 by Institute of Fundamental Technological Research Polish Academy of Sciences, Wa...
In this study, atomic force microscopy (AFM) tip profile was introduced and examined on carbon nano...
The Atomic Force Microscope (AFM) is an instrument with huge impact on modern research in the nanos...
Efficiency and accuracy of AFM-based nanomanipulation are still major problems to be solved, due to ...
Recently, Binnig, Quate, and Gerber developed the atomic force microscope (AFM), an instrument which...
The Atomic Force Microscope (AFM) is a versatile tool in experimental research. The principle of ope...
This Ph.D. project is aimed at developing and validating techniques for successful use of Atomic For...
This chapter presents the main principles of Scanning Electron Tunneling (STM) and atomic force micr...
As it is important to understand the basic mechanics principle in nanofabrication process, much rese...
The most commonly used materials in all commercially available high-aspect-ratio (HAR) nanowire's (N...
Nanoscale multipoint structure-function analysis is essential for deciphering the complexity of mult...
Accurate mechanical characterization by the atomic force microscope at the highest spatial resolutio...
The effect of the tip bluntness of AFM probes on their effective rake angle during AFM-based nanosca...
Abstract As it is important to understand the basic mechanics principle in nanofabrication process, ...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2015.Cata...
Copyright © 2014 by Institute of Fundamental Technological Research Polish Academy of Sciences, Wa...
In this study, atomic force microscopy (AFM) tip profile was introduced and examined on carbon nano...
The Atomic Force Microscope (AFM) is an instrument with huge impact on modern research in the nanos...
Efficiency and accuracy of AFM-based nanomanipulation are still major problems to be solved, due to ...
Recently, Binnig, Quate, and Gerber developed the atomic force microscope (AFM), an instrument which...
The Atomic Force Microscope (AFM) is a versatile tool in experimental research. The principle of ope...
This Ph.D. project is aimed at developing and validating techniques for successful use of Atomic For...
This chapter presents the main principles of Scanning Electron Tunneling (STM) and atomic force micr...
As it is important to understand the basic mechanics principle in nanofabrication process, much rese...
The most commonly used materials in all commercially available high-aspect-ratio (HAR) nanowire's (N...
Nanoscale multipoint structure-function analysis is essential for deciphering the complexity of mult...
Accurate mechanical characterization by the atomic force microscope at the highest spatial resolutio...