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[[File:Kelvin probe force microscopy.svg|thumb|400px|In Kelvin probe force microscopy, a conducting cantilever is scanned over a surface at a constant height in order to map the work function of the surface.]] | |||
'''Kelvin probe force microscopy''' ('''KPFM'''), also known as '''surface potential microscopy''', is a noncontact variant of [[Atomic force microscope|atomic force microscopy]] (AFM), and was invented in 1991.<ref>{{cite journal|url=http://dns.ntu-ccms.ntu.edu.tw/references/APPL_PHYS_LETT-58-2921-1991.pdf|format=free-download pdf|journal=Appl. Phys. Lett.|year=1991|title=Kelvin probe force microscopy|volume=58|page=2921|doi=10.1063/1.105227|author=M. Nonnenmacher, M. P. O'Boyle, and H. K. Wickramasinghe|bibcode = 1991ApPhL..58.2921N|issue=25 }}</ref> With KPFM, the [[work function]] of surfaces can be observed at [[Atom|atomic]] or [[Molecule|molecular]] scales. The work function relates to many surface phenomena, including [[Catalysis|catalytic activity]], reconstruction of surfaces, doping and band-bending of [[semiconductor]]s, charge trapping in [[dielectric]]s 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 [[Electric potential|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 [[atomic force microscopy|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 ω<sub>0</sub> as in normal [[atomic force microscopy|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 | |||
:<math>E = \frac{1}{2}C[V_{DC} + V_{AC}\sin(\omega_0 t)]^2 = \frac{1}{2}C[2V_{DC}V_{AC}\sin(\omega_0 t) - \frac{1}{2}V_{AC}^2 \cos(2\omega_0 t)]</math> | |||
plus terms at DC. Only the cross-term proportional to the ''V<sub>DC</sub>·V<sub>AC</sub>'' product is at the resonance frequency ω<sub>0</sub>. 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 microscope|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 microscope|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]]. | |||
==Working principle== | |||
The Kelvin probe force microscope or Kelvin force microscope (KFM) is based on an AFM set-up and the determination of the work function is based on the measurement of the electrostatic forces between the small AFM tip and the sample. The conducting tip and the sample are characterized by (in general) different work functions, which represent the difference between the [[Fermi level]] and the [[vacuum level]] for each material. If both elements were brought in contact, a net electric current would flow between them until the Fermi levels were aligned. The difference between the work functions is called the [[Volta potential|contact potential difference]] and is denoted generally with ''V<sub>CPD</sub>''. An electrostatic force exists between tip and sample, because of the electric field between them. For the measurement a voltage is applied between tip and sample, consisting of a DC-bias ''V<sub>DC</sub>'' and an AC-voltage ''V<sub>AC</sub> sin(ωt)'' of frequency ''ω''. | |||
:<math>V = (V_{DC} - V_{CPD}) + V_{AC} \cdot \sin (\omega t)</math> | |||
Tuning the AC-frequency to the [[resonant frequency]] of the AFM cantilever results in an improved sensitivity. The electrostatic force in a capacitor may be found by differentiating the energy function with respect to the separation of the elements and can be written as | |||
:<math>F = \frac{1}{2} \frac{dC}{dz} V^2</math> | |||
where ''C'' is the capacitance, ''z'' is the separation, and ''V'' is the voltage, each between tip and surface. Substituting the previous formula for voltage (V) shows that the electrostatic force can be split up into three contributions, as the total electrostatic force ''F'' acting on the tip then has spectral components at the frequencies ''ω'' and ''2ω''. | |||
:<math>F = F_{DC} + F_{\omega} + F_{2 \omega}</math> | |||
The DC component, ''F<sub>DC</sub>'', contributes to the topographical signal, the term ''F<sub>ω</sub>'' at the characteristic frequency ''ω'' is used to measure the contact potential and the contribution ''F<sub>2ω</sub>'' can be used for capacitance microscopy. | |||
:<math>F_{DC} = \frac{dC}{dz} [\frac{1}{2}(V_{DC} - V_{CPD})^2 + \frac{1}{4} V^2_{AC}]</math> | |||
:<math>F_{\omega} = \frac{dC}{dz} [V_{DC} - V_{CPD}] V_{AC} \sin(\omega t)</math> | |||
:<math>F_{2 \omega} = - \frac{1}{4} \frac{dC}{dz} V^2_{AC} \cos(2 \omega t)</math> | |||
For contact potential measurements a [[lock-in amplifier]] is used to detect the cantilever oscillation at ''ω''. During the scan ''V<sub>DC</sub>'' will be adjusted so that the electrostatic forces between the tip and the sample become zero and thus the response at the frequency ω becomes zero. Since the electrostatic force at ''ω'' depends on ''V<sub>DC</sub> − V<sub>CPD</sub>'', the value of ''V<sub>DC</sub>'' that minimizes the ''ω''-term corresponds to the contact potential. Absolute values of the sample work function can be obtained if the tip is first calibrated against a reference sample of known work function{{Citation needed|date=February 2012}}. Apart from this, one can use the normal topographic scan methods at the resonance frequency ''ω'' independently of the above. Thus, in one scan, the topography and the contact potential of the sample are determined simultaneously. | |||
==See also== | |||
*[[Scanning probe microscopy]] | |||
*[[Surface photovoltage]] | |||
==References== | |||
{{reflist}} | |||
== External links == | |||
* {{cite web |url=http://www.spm.iis.u-tokyo.ac.jp/takihara/Kelvin%20probe%20force%20microscopy_e.html |title=Kelvin probe force microscopy |author=Masaki Takihara |date=9 December 2008 |publisher=Takahashi Lab., Institute of Industrial Science, University of Tokyo |accessdate=29 February 2012}} – Full description of the principles with good illustrations to aid comprehension | |||
{{SPM2}} | |||
[[Category:Scanning probe microscopy]] | |||
[[Category:Condensed matter physics]] | |||
[[Category:Surface chemistry]] | |||
[[Category:Electric and magnetic fields in matter]] | |||
[[ja:原子間力顕微鏡]] | |||
Revision as of 15:24, 9 January 2014
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.[1] 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
![{\displaystyle E={\frac {1}{2}}C[V_{DC}+V_{AC}\sin(\omega _{0}t)]^{2}={\frac {1}{2}}C[2V_{DC}V_{AC}\sin(\omega _{0}t)-{\frac {1}{2}}V_{AC}^{2}\cos(2\omega _{0}t)]}](https://wikimedia.org/api/rest_v1/media/math/render/svg/76406b6101633873a2d25b45bd1f08ff43d7c571)
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.
Working principle
The Kelvin probe force microscope or Kelvin force microscope (KFM) is based on an AFM set-up and the determination of the work function is based on the measurement of the electrostatic forces between the small AFM tip and the sample. The conducting tip and the sample are characterized by (in general) different work functions, which represent the difference between the Fermi level and the vacuum level for each material. If both elements were brought in contact, a net electric current would flow between them until the Fermi levels were aligned. The difference between the work functions is called the contact potential difference and is denoted generally with VCPD. An electrostatic force exists between tip and sample, because of the electric field between them. For the measurement a voltage is applied between tip and sample, consisting of a DC-bias VDC and an AC-voltage VAC sin(ωt) of frequency ω.
Tuning the AC-frequency to the resonant frequency of the AFM cantilever results in an improved sensitivity. The electrostatic force in a capacitor may be found by differentiating the energy function with respect to the separation of the elements and can be written as
where C is the capacitance, z is the separation, and V is the voltage, each between tip and surface. Substituting the previous formula for voltage (V) shows that the electrostatic force can be split up into three contributions, as the total electrostatic force F acting on the tip then has spectral components at the frequencies ω and 2ω.
The DC component, FDC, contributes to the topographical signal, the term Fω at the characteristic frequency ω is used to measure the contact potential and the contribution F2ω can be used for capacitance microscopy.
![{\displaystyle F_{DC}={\frac {dC}{dz}}[{\frac {1}{2}}(V_{DC}-V_{CPD})^{2}+{\frac {1}{4}}V_{AC}^{2}]}](https://wikimedia.org/api/rest_v1/media/math/render/svg/e64ec88cf1364073d78c2fa410c4589621cd6116)
![{\displaystyle F_{\omega }={\frac {dC}{dz}}[V_{DC}-V_{CPD}]V_{AC}\sin(\omega t)}](https://wikimedia.org/api/rest_v1/media/math/render/svg/1826a211f72a4518e388609ea082454aba51239f)
For contact potential measurements a lock-in amplifier is used to detect the cantilever oscillation at ω. During the scan VDC will be adjusted so that the electrostatic forces between the tip and the sample become zero and thus the response at the frequency ω becomes zero. Since the electrostatic force at ω depends on VDC − VCPD, the value of VDC that minimizes the ω-term corresponds to the contact potential. Absolute values of the sample work function can be obtained if the tip is first calibrated against a reference sample of known work functionPotter or Ceramic Artist Truman Bedell from Rexton, has interests which include ceramics, best property developers in singapore developers in singapore and scrabble. Was especially enthused after visiting Alejandro de Humboldt National Park.. Apart from this, one can use the normal topographic scan methods at the resonance frequency ω independently of the above. Thus, in one scan, the topography and the contact potential of the sample are determined simultaneously.
See also
References
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External links
- Template:Cite web – Full description of the principles with good illustrations to aid comprehension
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