Electronic structures of several 3d transition-metal phosphates and sulfate
s have been studied using total-electron-yield X-ray absorption near-edge s
tructure (TEY-XANES) spectroscopy. In P and S K-edge XANES spectra that rel
ate to the electron transitions from P and S Is to P and S 3p-dominant unoc
cupied states, respectively, two peaks are observed when the number of 3d e
lectrons of cations is less than nine, whereas only one peak is observed wh
en the number is ten. With the increase of the number of the 3d electrons,
the lower-energy peak (pre-edge peak) decreases in intensity and shifts to
the lower-energy side with discontinuity at five 3d electrons, and the high
er-energy peak (main peak) simply shifts to the lower-energy side without s
uch discontinuity. The changes of the pre-edge peak indicate that the densi
ty and energy level of the P or S 3p-dominant unoccupied states relate to t
he number of the 3d electrons, which suggests that P and S 3p states hybrid
ize with 3d states of the cations. The shift of the main peak, which would
be associated with the hybridization of the P or S 3p states with 4s states
of the cations, can be explained by the depression of the energy levels of
the cations with the increase of core electrons. (C) 1999 Elsevier Science
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