FTIR study of the low-temperature adsorption and co-adsorption of CO and N-2 on NaY zeolite: evidence of simultaneous coordination of two molecules to one Na+ site
K. Hadjiivanov et H. Knozinger, FTIR study of the low-temperature adsorption and co-adsorption of CO and N-2 on NaY zeolite: evidence of simultaneous coordination of two molecules to one Na+ site, CHEM P LETT, 303(5-6), 1999, pp. 513-520
Na+ cations in S-Pi positions in NaY zeolite are able, at 85 K, to coordina
te two CO or N-2 molecules as well as to form mixed Na+(CO)(N-2) species. I
n all these complexes, the ligands behave as independent oscillators. The N
a+(N-15(2))(2) species (IR band at 2255.5 cm(-1)) are typical at equilibriu
m pressures > 30 Pa, whereas the respective linear complexes (band at 2258.
5 cm(-1)) prevail at lower pressures. The dicarbonyls (band at 2163 cm(-1))
are the principal complexes observed at CO pressures higher than ca. 0.1 P
a and evacuation converts them to linear carbonyls (band at 2174 cm(-1)). T
he mixed Na+(CO)(N-15(2)) complexes [nu(C-O) at 2167 cm(-1) and nu(N-15-N-1
5) at 2254 cm(-1)] are produced during CO and N-15(2) co-adsorption and eas
ily lose one N-15(2) ligand, being thus converted to linear carbonyls. (C)
1999 Elsevier Science B.V. All rights reserved.