FOURIER-TRANSFORM INFRARED AND RAMAN-SPECTRA OF PURE AND AL-SUBSTITUTED, B-SUBSTITUTED, TI-SUBSTITUTED AND FE-SUBSTITUTED SILICALITES - STRETCHING-MODE REGION
D. Scarano et al., FOURIER-TRANSFORM INFRARED AND RAMAN-SPECTRA OF PURE AND AL-SUBSTITUTED, B-SUBSTITUTED, TI-SUBSTITUTED AND FE-SUBSTITUTED SILICALITES - STRETCHING-MODE REGION, Journal of the Chemical Society. Faraday transactions, 89(22), 1993, pp. 4123-4130
Citations number
60
Categorie Soggetti
Chemistry Physical","Physics, Atomic, Molecular & Chemical
A systematic investigation of the IR and Raman spectra of pure and Al-
, B-, Ti- and Fe-substituted silicalites in the SiO stretching region
(1500-700 cm(-1)) is presented. As well as the characteristic stretchi
ng modes of the skeleton, silicalites containing hydroxylated nests sh
ow also broad bands at ca. 960 cm(-1) (IR) and at ca. 976 cm(-1) (Rama
n), associated with O3Si-OH group modes, with prevailing drop Si-OH st
retching character. The replacement of Si with heavier elements (like
Ti or Fe) causes the appearance of new IR- and Raman-active modes (i)
at 960 cm(-1) (IR and Raman) and at 1127 cm(-1) (Raman) in Ti silicali
te; (ii) at 1015 cm(-1) (IR) and at 1020 cm(-1) (Raman) in Fe silicali
te. Neither the Raman nor the in spectra of the skeletal modes are sub
stantially modified by the introduction of Al (ZSM5). The presence of
boron induces the appearance in the IR spectra of a complex absorption
at 1380 cm(-1) and at 960-930 cm(-1), which corresponds to the absorp
tions at 1417 and 976 cm(-1) in the Raman spectra. The assignment of t
he absorptions associated with heteroatoms and hydroxylated nests is d
iscussed in detail.