Manipulation of nanostructured materials using dielectrophoresis and traveling wave dielectrophoresis system designed on large scale glass substrate

Abstract

We have developed manipulation method of nanostructured materials by dielectrophoresis and traveling wave dielectrophoresis system designed on large scale glass substrate using liquid-crystal display related COG (chip on glass) technologies. Fine pitch prallel electrodes were formed with from 1 mm to 15 mm L/S (line/space) on the glass substrate, and then resist passivation film was coated on the electrodes. The high-frequency electric field was applied to the electrodes using flexible circuit board. We successfully demonstrated manipulation and distribution of nanostructured materials, i.e., multiwall carbon nanotubes, TiO2 rutile particles, BaTiO3 nanopowders.