Hydration of a Synthetic Clay with Tetrahedral Charges:  A Multidisciplinary Experimental and Numerical Study

Rinnert, Emmanuel; Carteret, Cédric; Humbert, Bernard; Fragneto-Cusani, Giovanna; Ramsay, J.D.F.; Delville, Alfred; Robert, Jean-Louis; Bihannic, Isabelle; Pelletier, Manuel; Michot, Laurent J.

doi:10.1021/jp050957u

Cited by 93 publications

(143 citation statements)

References 82 publications

Supporting

Mentioning

125

Contrasting

Order By: Relevance

“…That on layer abundance was considered to vary linearly from (2% when the relative proportion of a given layer is 100% or 0% to (5% when this layer represents 50% of the total layers. corresponds to ∼5 and ∼3H 2 O molecules per cation for the low-and high-charge saponite, respectively, in agreement with results obtained by Rinnert et al 40 on similar samples. These values are also consistent with the three-dimensional (3D) structure determination obtained for Ca-, Sr-, Li-, Ba-, or Nasaturated vermiculite minerals in which the cation hydration shell was found to not exceed 4 H 2 O molecules per cation with a coordination similar to a flat tetrahedron.…”

Section: Discussionsupporting

confidence: 92%

“…The investigated saponites were prepared at ISTO (Orléans, France) by hydrothermal treatment as described in detail elsewhere, 40 before being sodium saturated. 20 Their structural formulas are the following: Na x (Si 8-x ,Al x )(Mg 6 )O 20 (OH) 4 , with x ) 0.8 and 1.4.…”

Section: Methodsmentioning

confidence: 99%

“…20 Positional disorder of interlayer H 2 O molecules is, however, suggested by the 3D structure refinement of vermiculites, [45][46][47] and by computational studies. 36,37,40,42,44,[48][49][50][51] The present XRD modeling study thus integrates this positional disorder in the determination of the fine interlayer structure of smectite and of its evolution upon dehydration using low-and high-charge synthetic saponites. The water content determined from the modeling procedure is compared to results obtained from water vapor adsorption/desorption isotherms experiments.…”

Section: Introduction and Background Informationmentioning

confidence: 99%

See 2 more Smart Citations

Hydration Properties and Interlayer Organization of Water and Ions in Synthetic Na-Smectite with Tetrahedral Layer Charge. Part 1. Results from X-ray Diffraction Profile Modeling

Ferrage¹,

Lanson²,

Michot³

et al. 2010

J. Phys. Chem. C

Self Cite

198

246

View full text Add to dashboard Cite

The dehydration of two Na-saturated synthetic saponites with contrasting layer charge was studied by modeling the X-ray diffraction (XRD) patterns recorded along a water vapor desorption isotherm. The interlayer configurations used to reproduce the XRD data over a large angular range include Na + cations located in the interlayer midplane and H 2 O molecules normally distributed about one or two main positions for mono-and bihydrated layers, respectively. Although strongly reduced in comparison to natural smectites, hydration heterogeneity was systematically observed for these synthetic saponites, especially along the transition between two hydration states. Using improved models for the description of the interlayer organization, the influence of layer charge on the structure of interlayer water can be precisely assessed. In addition, the comparison with water contents obtained from water vapor gravimetry experiments allows discriminating the relative contributions of H 2 O molecules from 1W and 2W interlayers (crystalline water) and from the pore space network.

show abstract

Section: Discussionsupporting

confidence: 92%

Section: Methodsmentioning

confidence: 99%

Section: Introduction and Background Informationmentioning

confidence: 99%

See 1 more Smart Citation

Hydration Properties and Interlayer Organization of Water and Ions in Synthetic Na-Smectite with Tetrahedral Layer Charge. Part 1. Results from X-ray Diffraction Profile Modeling

Ferrage¹,

Lanson²,

Michot³

et al. 2010

J. Phys. Chem. C

Self Cite

198

246

View full text Add to dashboard Cite

show abstract

“…The swelling properties of clays have been studied extensively, both experimentally (Weiss et al, 1990;Cases et al, 1992;Bérend et al, 1995;Michot et al, 2002;Rinnert et al, 2005;Trausch et al, 2006;Salles et al, 2008) and theoretically (Boek et al, 1995a,b;de Siqueira et al, 1997;Young and Smith, 2000;Hensen et al, 2001;Hensen and Smit, 2002;Whitley and Smith, 2004;Tambach et al, 2004;Liu and Lu, 2006;Smith et al, 2006;Tambach et al, 2006) and are now relatively well understood. Mooney et al 3 (1952a,b) were among the first authors to show that smectites are able to sorb up to half their mass in water and that the water sorption behavior is strongly dependent on the nature of the exchangeable cation.…”

Section: Introductionmentioning

confidence: 99%

Hydration properties of synthetic high-charge micas saturated with different cations: An experimental approach

Pavón

Castro

Naranjo

et al. 2013

American Mineralogist

View full text Add to dashboard Cite

An understanding of the interaction mechanisms between exchangeable cations and layered silicates is of interest from both a basic and an applied point of view. Among 2:1 phyllosilicates, a new family of swelling high-charge synthetic micas has been shown to be potentially useful as decontaminant. However, the location of the interlayer cations, their acidity and the water structure in the interlayer space of these silicates are still unknown. The aim of this paper was therefore to study the hydration state of the interlayer cations in the interlayer space of high-charge expandable micas and to evaluate the effect that this hydration has on the swelling and acidity behavior of these new materials. To achieve these objectives, three synthetic micas with different with different charge density total layer charges (ranging between 2 and 4 per unit cell) and with five interlayer cations (Na

show abstract

“…The interaction between the particle and the vicinal water becomes more significant as the temperature decreases and the viscosity increases (Wolfe et al, 2002). Recent studies have shown the presence of ordered 10 water near interfaces in biological (Cooke and Kuntz, 1974;Snyder et al, 2014), metallic (Michot et al, 2002) and clay (Yu et al, 2001;Rinnert et al, 2005) particles, a notion that is also supported by molecular dynamics simulations (Lupi et al, 2014;Cox et al, 2015). In a groundbreaking work, Anderson (1967) found strong evidence of ice formation several molecular diameters away from the clay-water interface.…”

Section: Introductionmentioning

confidence: 89%

On the Thermodynamic and Dynamic Aspects of Immersion Ice Nucleation

Barahona¹

2017

Preprint

View full text Add to dashboard Cite

Abstract.Heterogeneous ice nucleation initiated by particles immersed within droplets is likely the main pathway of ice formation in the atmosphere. Theoretical models commonly used to describe this process assume that it mimics ice formation from the vapor, neglecting interactions unique to the liquid phase. This work introduces a new approach that accounts for such interactions by linking the ability of particles to promote ice formation to the modification of the properties of water near the particle-liquid 5 interface. It is shown that the same mechanism that lowers the thermodynamic barrier for ice nucleation also tends to decrease the mobility of water molecules, hence the ice-liquid interfacial flux. Heterogeneous ice nucleation in the liquid phase is thus determined by the competition between thermodynamic and kinetic constraints to the formation and propagation of ice. At the limit, ice nucleation may be mediated by the dynamics of vicinal water instead of the nucleation work. This new ice nucleation regime is termed spinodal ice nucleation. Comparison of predicted nucleation rates against published data suggests that some 10 materials of atmospheric relevance may nucleate ice in this regime.

show abstract

Hydration of a Synthetic Clay with Tetrahedral Charges: A Multidisciplinary Experimental and Numerical Study

Cited by 93 publications

References 82 publications

Hydration Properties and Interlayer Organization of Water and Ions in Synthetic Na-Smectite with Tetrahedral Layer Charge. Part 1. Results from X-ray Diffraction Profile Modeling

Hydration Properties and Interlayer Organization of Water and Ions in Synthetic Na-Smectite with Tetrahedral Layer Charge. Part 1. Results from X-ray Diffraction Profile Modeling

Hydration properties of synthetic high-charge micas saturated with different cations: An experimental approach

On the Thermodynamic and Dynamic Aspects of Immersion Ice Nucleation

Contact Info

Product

Resources

About