Research output: Contribution to journal › Article › peer-review
Structural behavior of Tl-exchanged natrolite at high pressure depending on the composition of pressure-transmitting medium. / Seryotkin, Yu V.; Bakakin, V. V.; Likhacheva, A. Yu et al.
In: Physics and Chemistry of Minerals, Vol. 44, No. 9, 01.10.2017, p. 615-626.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Structural behavior of Tl-exchanged natrolite at high pressure depending on the composition of pressure-transmitting medium
AU - Seryotkin, Yu V.
AU - Bakakin, V. V.
AU - Likhacheva, A. Yu
AU - Dementiev, S. N.
AU - Rashchenko, S. V.
N1 - Publisher Copyright: © 2017, Springer-Verlag Berlin Heidelberg.
PY - 2017/10/1
Y1 - 2017/10/1
N2 - The structural evolution of Tl-exchanged natrolite with idealized formula Tl2[Al2Si3O10]·2H2O, compressed in penetrating (water:ethanol 1:1) and non-penetrating (paraffin) media, was studied up to 4 GPa. The presence of Tl+ with non-bonded electron lone pairs, which can be either stereo-chemically active or passive, determines distinctive features of the high-pressure behavior of the Tl-form. The effective volume of assemblages Tl+(O,H2O)n depends on the E-pairs activity: single-sided coordination correlates with smaller volumes. At ambient conditions, there are two types of Tl positions, only one of them having a nearly single-sided coordination as a characteristic of stereo-activity of the Tl+ E pair. Upon the compression in paraffin, a phase transition occurs: a 5% volume contraction of flexible natrolite framework is accompanied by the conversion of all the Tl+ cations into stereo-chemically active state with a single-sided coordination. This effect requires the reconstruction of all the extra-framework subsystems with the inversion of the cation and H2O positions. The compression in water-containing medium leads to the increase of H2O content up to three molecules pfu through the filling of partly vacant positions. This hinders a single-sided coordination of Tl ions and preserves the configuration of their ion-molecular subsystem. It is likely that the extra-framework subsystem is responsible for the super-structure modulation.
AB - The structural evolution of Tl-exchanged natrolite with idealized formula Tl2[Al2Si3O10]·2H2O, compressed in penetrating (water:ethanol 1:1) and non-penetrating (paraffin) media, was studied up to 4 GPa. The presence of Tl+ with non-bonded electron lone pairs, which can be either stereo-chemically active or passive, determines distinctive features of the high-pressure behavior of the Tl-form. The effective volume of assemblages Tl+(O,H2O)n depends on the E-pairs activity: single-sided coordination correlates with smaller volumes. At ambient conditions, there are two types of Tl positions, only one of them having a nearly single-sided coordination as a characteristic of stereo-activity of the Tl+ E pair. Upon the compression in paraffin, a phase transition occurs: a 5% volume contraction of flexible natrolite framework is accompanied by the conversion of all the Tl+ cations into stereo-chemically active state with a single-sided coordination. This effect requires the reconstruction of all the extra-framework subsystems with the inversion of the cation and H2O positions. The compression in water-containing medium leads to the increase of H2O content up to three molecules pfu through the filling of partly vacant positions. This hinders a single-sided coordination of Tl ions and preserves the configuration of their ion-molecular subsystem. It is likely that the extra-framework subsystem is responsible for the super-structure modulation.
KW - Crystal structure
KW - High pressure
KW - Phase transformation
KW - Pressure-induced hydration
KW - Tl-natrolite
KW - Water–cation assemblages
KW - X-ray powder diffraction
KW - Zeolites
KW - Water-cation assemblages
KW - THERMODYNAMIC PROPERTIES
KW - CRYSTAL-STRUCTURE
KW - NEUTRON-DIFFRACTION
KW - X-RAY-DIFFRACTION
KW - SINGLE-CRYSTAL
KW - POWDER DIFFRACTION
KW - PHASE-TRANSITION
KW - SUBSTITUTED NATROLITE
KW - INDUCED OVER-HYDRATION
KW - ZEOLITES
UR - http://www.scopus.com/inward/record.url?scp=85017191754&partnerID=8YFLogxK
U2 - 10.1007/s00269-017-0887-0
DO - 10.1007/s00269-017-0887-0
M3 - Article
AN - SCOPUS:85017191754
VL - 44
SP - 615
EP - 626
JO - Physics and Chemistry of Minerals
JF - Physics and Chemistry of Minerals
SN - 0342-1791
IS - 9
ER -
ID: 10264528