Kinetics of Fe-oxydation/deprotonation process in Fe-rich phlogopite under isothermal conditions
Articolo
Data di Pubblicazione:
2010
Abstract:
The kinetics of the Fe-oxidation/deprotonation process in a natural Fe-rich phlogopite from Mt.
Vulture (Potenza, Italy) was studied under isothermal conditions by in situ high-temperature singlecrystal
X-ray diffraction. Isothermal annealing experiments were performed at five temperatures in
the range 640–750 °C on five crystals with similar chemical composition and lattice parameters. The
Fe-oxidation/deprotonation process at high temperature occurs with a reduction of unit-cell parameters
and cell volume. The changes in unit-cell parameters measured at high temperature and during cooling
show that the same degree of Fe-oxidation/deprotonation process was achieved at all temperatures.
Changes in unit-cell parameters with temperature and time show that the kinetics of Fe-oxidation/
deprotonation in phlogopite follows an exponential law, and the temperature dependence follows the
Arrhenius relation. A kinetic analysis was performed and good agreement was obtained with the onedimensional
diffusion model. An apparent activation energy of 195(4) kJ/mol was determined.
Vulture (Potenza, Italy) was studied under isothermal conditions by in situ high-temperature singlecrystal
X-ray diffraction. Isothermal annealing experiments were performed at five temperatures in
the range 640–750 °C on five crystals with similar chemical composition and lattice parameters. The
Fe-oxidation/deprotonation process at high temperature occurs with a reduction of unit-cell parameters
and cell volume. The changes in unit-cell parameters measured at high temperature and during cooling
show that the same degree of Fe-oxidation/deprotonation process was achieved at all temperatures.
Changes in unit-cell parameters with temperature and time show that the kinetics of Fe-oxidation/
deprotonation in phlogopite follows an exponential law, and the temperature dependence follows the
Arrhenius relation. A kinetic analysis was performed and good agreement was obtained with the onedimensional
diffusion model. An apparent activation energy of 195(4) kJ/mol was determined.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Trioctahedral mica; kinetics; deprotonation; single-crystal X-ray diffraction; high temperature
Elenco autori:
Zema, Michele; Ventruti, G.; Lacalamita, M.; Scordari, F.
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