Fudouzi et al., 2002 - Google Patents
Site‐controlled deposition of microsized particles using an electrostatic assemblyFudouzi et al., 2002
View PDF- Document ID
- 5489731505739474182
- Author
- Fudouzi H
- Kobayashi M
- Shinya N
- Publication year
- Publication venue
- Advanced Materials
External Links
Snippet
A new technique for the arrangement of microsized particles with site‐controlled deposition has been demonstrated. Positively charged dots are drawn with a focused Ga+ ion beam. Monodisperse particles are selectively attracted to the electric field of the dots in a one‐to …
- 239000002245 particle 0 title abstract description 112
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Fudouzi et al. | Site‐controlled deposition of microsized particles using an electrostatic assembly | |
| Rezende et al. | Detection of charge distributions in insulator surfaces | |
| JP5085215B2 (en) | Nanostructure | |
| Mesquida et al. | Attaching silica nanoparticles from suspension onto surface charge patterns generated by a conductive atomic force microscope tip | |
| Krinke et al. | Positioning of nanometer-sized particles on flat surfaces by direct deposition from the gas phase | |
| Jacobs et al. | Approaching nanoxerography: The use of electrostatic forces to position nanoparticles with 100 nm scale resolution | |
| US8066967B2 (en) | System and method for the manipulation, classification sorting, purification, placement, and alignment of nano fibers using electrostatic forces and electrographic techniques | |
| Lenggoro et al. | Nanoparticle assembly on patterned “plus/minus” surfaces from electrospray of colloidal dispersion | |
| JP2007504944A (en) | Method for producing nanoparticles and microparticles | |
| Barry et al. | Printing nanoparticles from the liquid and gas phases using nanoxerography | |
| Fudouzi et al. | Assembly of microsized colloidal particles on electrostatic regions patterned through ion beam irradiation | |
| Fudouzi et al. | Assembling 100 nm scale particles by an electrostatic potential field | |
| JP4130655B2 (en) | Field-assisted deposition method of nanoparticle films | |
| Masuda et al. | Arrangement of nanosized ceramic particles on self-assembled monolayers | |
| Hays | Role of electrostatics in adhesion | |
| Humbert et al. | Versatile, rapid and robust nano-positioning of single-photon emitters by AFM-nanoxerography | |
| Naujoks et al. | Micro-and nanoxerography in liquids–controlling pattern definition | |
| US9321633B2 (en) | Process for producing 3-dimensional structure assembled from nanoparticles | |
| KR100740984B1 (en) | Method for the focused patterning of nano-sized structure | |
| von Bojnicic‐Kninski et al. | Combinatorial particle patterning | |
| Foerster et al. | Electrophotographic powder application for metal powder bed based additive manufacturing | |
| Naim et al. | Electrostatic deposition of aerosol particles generated from an aqueous nanopowder suspension on a chemically treated substrate | |
| Cermak et al. | Electrical characterization of locally charged oxidized nanocrystalline diamond films by Kelvin force microscopy | |
| Yilmaz et al. | Large-scale nanorods nanomanufacturing by electric-field-directed assembly for nanoscale device applications | |
| Winkleman et al. | Templated self-assembly over patterned electrodes by an applied electric field: geometric constraints and diversity of materials |