Photoelectron Spectroscopy Seminar Report

Working and Applications Of Photoelectron Spectroscopy

Photoelectronspectroscopyisthemostpowerfulandversatiletechniquetostudytheelectronicstructureofthevalencebandsinatoms,such as:

> Emitte delectronparameters

> Kineticenergy

> Emissionangles

> Spinpolarization

> Incidentphotonparameters

> Photonenergy(hν)

> Angleofincidence

> Polarization

> Chemisorption Studies

XPS was developed in the mid 1960s by K. Siegbahn and his research group. K. Siegbahn was awarded the Nobel Prize for Physics in 1981 for his work in XPS. The phenomenon is based on the photoelectric effect outlined by Einstein in 1905 where the concept of the photon was used to describe the ejection of electrons from a surface when photons impinge upon it. For XPS, Al Kalpha (1486.6eV) or Mg Kalpha (1253.6eV) are often the photon energies of choice. Other X-ray lines can also be chosen such as Ti Kalpha (2040eV). The XPS technique is highly surface specific due to the short range of the photoelectrons that are excited from the solid. The energy of the photoelectrons leaving the sample are determined using a CHA and this gives a spectrum with a series of photoelectron peaks. The binding energy of the peaks are characteristic of each element. The peak areas can be used (with appropriate sensitivity factors) to determine the composition of the materials surface. The shape of each peak and the binding energy can be slightly altered by the chemical state of the emitting atom. Hence XPS can provide chemical bonding information as well. XPS is not sensitive to hydrogen or helium, but can detect all other elements. XPS must be carried out in UHV conditions.

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