Title :
Controlled pushing of nanoparticles: modeling and experiments
Author :
Sitti, Metin ; Hashimoto, Hideki
Author_Institution :
Inst. of Ind. Sci., Tokyo Univ., Japan
fDate :
6/1/2000 12:00:00 AM
Abstract :
A nano-robotic manipulation system using an atomic force microscope probe as the pushing manipulator and force and topology sensor is proposed. The task is the two-dimensional positioning of nanometer-size particles on a substrate in ambient conditions. Thus, the modeling of interaction forces and dynamics during the pushing operation is analyzed, and compared with the experimental results for an improved understanding of the nano scale physical phenomenon which is different from macro scale physics. Simulations and experiments are held for determining the conditions and strategies for reliable manipulation, and determining the affecting parameters. The results show that the latex particles with 242- and 484-nm radii can be positioned on Si substrates successfully with around 30-nm accuracy, and the behavior of the particle motion during pushing can be predicted from the experimental data
Keywords :
atomic force microscopy; force control; micromanipulators; micropositioning; nanotechnology; 242 nm; 484 nm; Si; Si substrates; ambient conditions; atomic force microscope probe; controlled pushing; interaction forces; latex particles; nano scale physical phenomenon; nano-robotic manipulation system; nanoparticles; particle motion; pushing manipulator; topology sensor; two-dimensional positioning; Atomic force microscopy; Capacitive sensors; Force sensors; Intelligent actuators; Intelligent robots; Intelligent sensors; Nanoparticles; Quantum computing; Sensor systems; Topology;
Journal_Title :
Mechatronics, IEEE/ASME Transactions on
DOI :
10.1109/3516.847093
