Biasing effect of non-conductive solids in x-ray photoelectron spectra

Semiconductor X-ray photoelectron Line positions are unaffected by changes in the snmplc's bulk Fermi level produced by doping. This is interpreted to result from pinning of the Fermi level at the surface by contaminnnts independent of tbc bulk Fermi level.

Satellite structure to one side of the 4f photoelectron lines of a number of thorium compounds has been investigated. The origin of these and similar lines observed in uranium compounds is discussed together with those recorded near the 3d phoioekron signals of lanthanide compounds.

The polymer poly(vinylidene fluoride) (PVDF) was irradiated with X-rays produced by a nonmonochromatic (MgKa) source and the structural and electronic PVDF surface modifications were studied by X-ray photoelectron spectroscopy (XPS). Changes in the shape and intensity of the C 1s and F 1s lines show

The extra peak. located at LX 13.6 eV on the high-bilidin~~ner~y side of the cure levels cf titenium in rutile, : anafase and barium titanate, probably arises from a shake-up process involving an O(2p) -, Ti(4s) transition. :

Satellite structure has been observed at about 3.1,5.4,6.4 and 14.5 eV below the main peaks in the X-my photoelectron spectra of the Ti and 0 Ievels of TiOl. These satellites arise from transitions. accompanying primary photoemission, betureen predominant& 0~~ states of the Iigmd and wrious excited