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• Kelvin_probe_force_microscope abstract "Kelvin probe force microscopy (KPFM), also known as surface potential microscopy, is a noncontact variant of atomic force microscopy (AFM), and was invented in 1991. With KPFM, the work function of surfaces can be observed at atomic or molecular scales. The work function relates to many surface phenomena, including catalytic activity, reconstruction of surfaces, doping and band-bending of semiconductors, charge trapping in dielectrics and corrosion. The map of the work function produced by KPFM gives information about the composition and electronic state of the local structures on the surface of a solid.KPFM is a scanning probe method where the potential offset between a probe tip and a surface can be measured using the same principle as a macroscopic Kelvin probe. The cantilever in the AFM is a reference electrode that forms a capacitor with the surface, over which it is scanned laterally at a constant separation. The cantilever is not piezoelectrically driven at its mechanical resonance frequency ω0 as in normal AFM although an alternating current (AC) voltage is applied at this frequency. When there is a direct-current (DC) potential difference between the tip and the surface, the AC+DC voltage offset will cause the cantilever to vibrate. The origin of the force can be understood by considering that the energy of the capacitor formed by the cantilever and the surface is plus terms at DC. Only the cross-term proportional to the VDC·VAC product is at the resonance frequency ω0. The resulting vibration of the cantilever is detected using usual scanned-probe microscopy methods (typically involving a diode laser and a four-quadrant detector). A null circuit is used to drive the DC potential of the tip to a value which minimizes the vibration. A map of this nulling DC potential versus the lateral position coordinate therefore produces an image of the work function of the surface.A related technique, electrostatic force microscopy (EFM), directly measures the force produced on a charged tip by the electric field emanating from the surface. EFM operates much like magnetic force microscopy in that the frequency shift or amplitude change of the cantilever oscillation is used to detect the electric field. However, EFM is much more sensitive to topographic artifacts than KPFM. Both EFM and KPFM require the use of conductive cantilevers, typically metal-coated silicon or silicon nitride.".
• Kelvin_probe_force_microscope thumbnail Kelvin_probe_force_microscopy.svg?width=300.
• Kelvin_probe_force_microscope wikiPageExternalLink Kelvin%20probe%20force%20microscopy_e.html.
• Kelvin_probe_force_microscope wikiPageID "2207911".
• Kelvin_probe_force_microscope wikiPageRevisionID "606410768".
• Kelvin_probe_force_microscope hasPhotoCollection Kelvin_probe_force_microscope.
• Kelvin_probe_force_microscope subject Category:Condensed_matter_physics.
• Kelvin_probe_force_microscope subject Category:Electric_and_magnetic_fields_in_matter.
• Kelvin_probe_force_microscope subject Category:Scanning_probe_microscopy.
• Kelvin_probe_force_microscope subject Category:Surface_chemistry.
• Kelvin_probe_force_microscope comment "Kelvin probe force microscopy (KPFM), also known as surface potential microscopy, is a noncontact variant of atomic force microscopy (AFM), and was invented in 1991. With KPFM, the work function of surfaces can be observed at atomic or molecular scales. The work function relates to many surface phenomena, including catalytic activity, reconstruction of surfaces, doping and band-bending of semiconductors, charge trapping in dielectrics and corrosion.".
• Kelvin_probe_force_microscope label "Kelvin probe force microscope".
• Kelvin_probe_force_microscope label "Kelvin-Sonde".
• Kelvin_probe_force_microscope label "开尔文探针力显微鏡".
• Kelvin_probe_force_microscope sameAs Kelvin-Sonde.
• Kelvin_probe_force_microscope sameAs m.06v_mr.
• Kelvin_probe_force_microscope sameAs Q1324110.
• Kelvin_probe_force_microscope sameAs Q1324110.
• Kelvin_probe_force_microscope wasDerivedFrom Kelvin_probe_force_microscope?oldid=606410768.
• Kelvin_probe_force_microscope depiction Kelvin_probe_force_microscopy.svg.
• Kelvin_probe_force_microscope isPrimaryTopicOf Kelvin_probe_force_microscope.