Add to ORKGThere has been great interest in exploring the effective manipulation methods to build miniaturized system, devices, structures and machines in nanoscale. In this paper, a novel nanomanipulation system based on dynamic force microscope has been developed, that can be used to position and orient multiwall carbon nanotubes on the Dynamic Force probe model. The physical principles of the Dynamic Force probe model are described. And the nanomanipulation system based on the nanoscale operation approach is introduced. Some typical nanomanipulation experiments show that multiwall carbon nanotubes can be reliably positioned and oriented, that illustrated the effectiveness of such method and the nanomanipulation system
* Abstract- Carbon nanotube (CNT) is an ideal candidate for future nanoelectronics because of its sm...
The maneuvering and electrical characterization of nanotubes inside a scanning electron microscope (...
We have investigated the possibility of using carbon nanotubes as flexible, mobile electrical probes...
There has been great interest in exploring the effective manipulation methods to build miniaturized ...
Nanomanipulation based on atomic force microscope is one of the key technologies for nanomanufacturi...
To real-timely feel and see the manipulation process of multi-wall carbon nanotube (MWCNT) is requir...
Nanomanipulation is a key technique in nanofabrication and in research on interactions among nanopar...
To real-timely feel and see the manipulation process of multi-wall carbon nanotube (MWCNT) is requir...
Abstract — Applications of the conventional atomic force microscope (AFM) succeeded in manipulating ...
The main goal of Nano technology is to analyze and understand the matter at the atomic and molecular...
A novel method is developed to effectively manipulating nano-entities to predefined positions and or...
Nanomanipulation shows its powerful potential with its broad applications, and using AFM as a simple...
In this study, atomic force microscope (AFM) tips are used as tools to cut and manipulate carbon nan...
This paper presents a method to implement interactive nanomanipulation. With the method we develop a...
Atomic Force Microscope (AFM) has been proven to be a useful tool to characterize and change the sam...
* Abstract- Carbon nanotube (CNT) is an ideal candidate for future nanoelectronics because of its sm...
The maneuvering and electrical characterization of nanotubes inside a scanning electron microscope (...
We have investigated the possibility of using carbon nanotubes as flexible, mobile electrical probes...
There has been great interest in exploring the effective manipulation methods to build miniaturized ...
Nanomanipulation based on atomic force microscope is one of the key technologies for nanomanufacturi...
To real-timely feel and see the manipulation process of multi-wall carbon nanotube (MWCNT) is requir...
Nanomanipulation is a key technique in nanofabrication and in research on interactions among nanopar...
To real-timely feel and see the manipulation process of multi-wall carbon nanotube (MWCNT) is requir...
Abstract — Applications of the conventional atomic force microscope (AFM) succeeded in manipulating ...
The main goal of Nano technology is to analyze and understand the matter at the atomic and molecular...
A novel method is developed to effectively manipulating nano-entities to predefined positions and or...
Nanomanipulation shows its powerful potential with its broad applications, and using AFM as a simple...
In this study, atomic force microscope (AFM) tips are used as tools to cut and manipulate carbon nan...
This paper presents a method to implement interactive nanomanipulation. With the method we develop a...
Atomic Force Microscope (AFM) has been proven to be a useful tool to characterize and change the sam...
* Abstract- Carbon nanotube (CNT) is an ideal candidate for future nanoelectronics because of its sm...
The maneuvering and electrical characterization of nanotubes inside a scanning electron microscope (...
We have investigated the possibility of using carbon nanotubes as flexible, mobile electrical probes...