Jj. Fitzgerald et al., DEHYDRATION STUDIES OF A HIGH-SURFACE-AREA ALUMINA (PSEUDO-BOEHMITE) USING SOLID-STATE H-1 AND AL-27 NMR, Journal of the American Chemical Society, 119(33), 1997, pp. 7832-7842
H-1 NMR based on the CRAMPS technique has been used to identify and mo
nitor the protons of surface Al-OH groups and ''physisorbed'' water as
sociated with a high-surface-area (230 m(2)/g) pseudo-boehmite materia
l following dehydration in the 110-1100 degrees C temperature range. T
hree distinguishable H-1 CRAMPS peaks were identified: a broad peak at
4.0 +/- 0.2 ppm attributed to the protons of ''physisorbed'' water an
d two peaks at 8.2 +/- 0.3 and 2.3 +/- 0.2 ppm associated with the pro
tons of structural Al-OH groups. The H-1 CRAMPS results are interprete
d in relationship to two important regions of the experimental dehydra
tion weight-loss profile for this material, a lower temperature region
(110-300 degrees C), in which desorption of ''physisorbed'' water occ
urs, and an intermediate temperature region (350-550 degrees C), where
condensation of adjacent Al-OH groups occurs. The combination of heat
ing between 110 and 300 degrees C and room temperature evacuation were
found to eliminate the ''physisorbed'' water peak, permitting the obs
ervation of the two resonances associated with the structural Al-OH si
tes. Dipolar dephasing experiments indicate that the 8.2 ppm peak is a
ssociated with highly coupled, ''clustered'' Al2OH groups, while the 3
.0 ppm resonance is associated with terminal, ''isolated'' AlOH groups
. H-1 CRAMPS evidence shows that upon heat treatment the Al2OH groups
condense at lower temperatures (350 degrees C) than the AlOH groups (5
50 degrees C). Three mechanisms are proposed for the condensation of t
he proton-containing surface Al-OH groups that occur in this material,
based on crystalline boehmite as a structural model. In addition to H
-1 CRAMPS studies, Al-27 MAS NMR spectra at 14 T of samples dehydrated
from 100 to 1100 degrees C provide structural information about the a
luminums in the high-surface-area pseudo-boehmite. This material dehyd
rates by condensation of both Al2OH and AlOH groups to form distorted,
hydrogen-bearing 4-, 5-, and 6-coordinate aluminum-containing interme
diates in the 350-500 degrees C range. At 1100 degrees C, this hydroge
n-bearing gamma- or delta-alumina material is converted to a material
consisting of primarily alpha-Al2O3.