Matches in DBpedia 2015-10 for { <http://dbpedia.org/resource/Electrostatic_deflection_(molecular_physics/nanotechnology)> ?p ?o }
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- nanotechnology) abstract "In molecular physics/nanotechnology, electrostatic deflection is the deformation of a beam-like structure/element bent by an electric field. It can be due to interaction between electrostatic fields and net charge or electric polarization effects. The beam-like structure/element is generally cantilevered (fix at one of its ends). In nanomaterials, carbon nanotubes (CNTs) are typical ones for electrostatic deflections.File:Electric deflection CNT.JPGMechanisms of electric deflection due to electric polarization can be understood as follows:File:Electric polarization effect.jpgWhen a material is brought into an electric field (E), the field tends to shift the positive charge (in red) and the negative charge (in blue) in opposite directions. Thus, induced dipoles are created. Fig. 3 shows a beam-like structure/element in an electric field. The interaction between the molecular dipole moment and the electric field results an induced torque (T). Then this torque tends to align the beam toward the direction of field.File:Electric induced torque.jpgIn case of a cantilevered CNT, it would be bent to the field direction. Meanwhile the electrically induced torque and stiffness of the CNT compete against each other. This deformation has been observed in experiments. This property is an important characteristic for CNTs promising nanoelectromechanical systems applications, as well as for their fabrication, separation and electromanipulation. Recently, several nanoelectromechanical systems based on cantilevered CNTs have been reported such as: nanorelays, nanoswitches, nanotweezers and feedback device which are designed for memory, sensing or actuation uses. Furthermore, theoretical studies have been carried out to try to get a full understanding of the electric deflection of carbon nanotubes,".
- nanotechnology) thumbnail Electric_deflection_CNT.JPG?width=300.
- nanotechnology) wikiPageID "10419626".
- nanotechnology) wikiPageLength "2475".
- nanotechnology) wikiPageOutDegree "44".
- nanotechnology) wikiPageRevisionID "643103402".
- nanotechnology) wikiPageWikiLink Beam_(structure).
- nanotechnology) wikiPageWikiLink Cantilever.
- nanotechnology) wikiPageWikiLink Cantilevered.
- nanotechnology) wikiPageWikiLink Carbon_nanotube.
- nanotechnology) wikiPageWikiLink Carbon_nanotubes.
- nanotechnology) wikiPageWikiLink Category:Molecular_physics.
- nanotechnology) wikiPageWikiLink Charge_(physics).
- nanotechnology) wikiPageWikiLink Deformation_(engineering).
- nanotechnology) wikiPageWikiLink Dipole.
- nanotechnology) wikiPageWikiLink Dipoles.
- nanotechnology) wikiPageWikiLink Electric_charge.
- nanotechnology) wikiPageWikiLink Electric_field.
- nanotechnology) wikiPageWikiLink Electric_polarization.
- nanotechnology) wikiPageWikiLink Electromanipulation.
- nanotechnology) wikiPageWikiLink Electrostatic.
- nanotechnology) wikiPageWikiLink Electrostatics.
- nanotechnology) wikiPageWikiLink Experiment.
- nanotechnology) wikiPageWikiLink Feedback_device.
- nanotechnology) wikiPageWikiLink File:Electric_induced_torque.jpg.
- nanotechnology) wikiPageWikiLink File:Electric_polarization_effect.jpg.
- nanotechnology) wikiPageWikiLink Memory.
- nanotechnology) wikiPageWikiLink Molecular_dipole_moment.
- nanotechnology) wikiPageWikiLink Molecular_physics.
- nanotechnology) wikiPageWikiLink Nanoelectromechanical_systems.
- nanotechnology) wikiPageWikiLink Nanomaterials.
- nanotechnology) wikiPageWikiLink Nanorelays.
- nanotechnology) wikiPageWikiLink Nanoswitches.
- nanotechnology) wikiPageWikiLink Nanotechnology.
- nanotechnology) wikiPageWikiLink Nanotweezers.
- nanotechnology) wikiPageWikiLink Negative_charge.
- nanotechnology) wikiPageWikiLink Polarization_density.
- nanotechnology) wikiPageWikiLink Positive_charge.
- nanotechnology) wikiPageWikiLink Sense.
- nanotechnology) wikiPageWikiLink Stiffness.
- nanotechnology) wikiPageWikiLink Theoretical.
- nanotechnology) wikiPageWikiLink Theory.
- nanotechnology) wikiPageWikiLink Torque.
- nanotechnology) wikiPageWikiLink Wikt:characteristic.
- nanotechnology) wikiPageWikiLink File:Electric_deflection_CNT.JPG.
- nanotechnology) wikiPageWikiLinkText "Electrostatic deflection (molecular physics/nanotechnology)".
- nanotechnology) hasPhotoCollection nanotechnology).
- nanotechnology) wikiPageUsesTemplate Template:Orphan.
- nanotechnology) subject Category:Molecular_physics.
- nanotechnology) hypernym Deformation.
- nanotechnology) comment "In molecular physics/nanotechnology, electrostatic deflection is the deformation of a beam-like structure/element bent by an electric field. It can be due to interaction between electrostatic fields and net charge or electric polarization effects. The beam-like structure/element is generally cantilevered (fix at one of its ends).".
- nanotechnology) label "Electrostatic deflection (molecular physics/nanotechnology)".
- nanotechnology) sameAs m.02qcfxq.
- nanotechnology) sameAs Q5358558.
- nanotechnology) sameAs Q5358558.
- nanotechnology) wasDerivedFrom nanotechnology)?oldid=643103402.
- nanotechnology) depiction Electric_deflection_CNT.JPG.
- nanotechnology) isPrimaryTopicOf nanotechnology).