S. Kittaka et al., INTERACTION OF NH3 WITH H2O IN THE VANADIUM PENTAOXIDE HYDRATE INTERLAYER SPACES - TOPOTACTIC CRYSTAL-GROWTH OF AMMONIUM VANADATE FILM, Langmuir, 13(5), 1997, pp. 1352-1358
The adsorbed state of NH3 in the vanadium pentaoxide hydrate, V2O5 . n
H(2)O, and its chemical reactivity with additionally introduced H2O we
re studied by gravimetric adsorption measurements, Fourier transform i
nfrared (FT-IR) spectroscopy, mass spectroscopy, and X-ray defraction
(XRD) analyses. It was confirmed by FT-IR spectroscopy that NH3 molecu
les are adsorbed at first to form NH4+ by reacting with intrinsically
present H2O and secondly as molecular NH3 or IR-inactive NH4+. These a
dsorbed states were also confirmed by mass spectroscopy. When H2O vapo
r is introduced in the NH3-presorbed sample, NH4VO3 is formed topotact
ically with its(001) plane parallel to that of V2O5 . nH(2)O. Here, H2
O reacts with additional molecular NH3 giving locally the NH3 water be
tween the layers. The NH3 water led to the dissolution of the hydrate
and to crystallization of NH4VO3.