Neutron scattering study of water confined in periodic mesoporous organosilicas

Esthy Levy; Lok Kay Chan; Dehong Yu; Michael Marek Koza; Yitzhak Mastai; R. C. Ford; Jichen Li

doi:10.1016/j.jssc.2010.05.017

Neutron scattering study of water confined in periodic mesoporous organosilicas

Esthy Levy
, Lok Kay Chan
, Dehong Yu
, Michael Marek Koza
, Yitzhak Mastai
, R. C. Ford
, Jichen Li

Department of Chemistry

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

A series of quasi-elastic neutron scattering measurements were performed using IN6 at the Institute Laue Langevin for a mesoporous organosilica material with phenyl functions, called phenyltriethoxysilane (PTES). The aim of the experiment was to study the diffusion dynamics of nano-scale water clusters inside the hydrophobic pores as a function of temperature and hydration. By fitting the Debye-Waller factor, the data show clearly the different behavior between water, both inside and outside the hydrophobic pores, which resembles bulk water. The mean thermal displacement 〈u²〉 of the external water increases with T almost linearly up to 353 K, while the internal water quickly reaches the maximum at T∼323 K, indicating the confinement by an averaged pore diameter of the porous organosilica.

Original language	English
Pages (from-to)	1691-1696
Number of pages	6
Journal	Journal of Solid State Chemistry
Volume	183
Issue number	7
DOIs	https://doi.org/10.1016/j.jssc.2010.05.017
State	Published - Jul 2010

Keywords

Ice
Inelastic neutron scattering
Mesoporous organosilica
Porous solids
Water

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10.1016/j.jssc.2010.05.017

Cite this

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title = "Neutron scattering study of water confined in periodic mesoporous organosilicas",

abstract = "A series of quasi-elastic neutron scattering measurements were performed using IN6 at the Institute Laue Langevin for a mesoporous organosilica material with phenyl functions, called phenyltriethoxysilane (PTES). The aim of the experiment was to study the diffusion dynamics of nano-scale water clusters inside the hydrophobic pores as a function of temperature and hydration. By fitting the Debye-Waller factor, the data show clearly the different behavior between water, both inside and outside the hydrophobic pores, which resembles bulk water. The mean thermal displacement 〈u2〉 of the external water increases with T almost linearly up to 353 K, while the internal water quickly reaches the maximum at T∼323 K, indicating the confinement by an averaged pore diameter of the porous organosilica.",

keywords = "Ice, Inelastic neutron scattering, Mesoporous organosilica, Porous solids, Water",

author = "Esthy Levy and \{Kay Chan\}, Lok and Dehong Yu and \{Marek Koza\}, Michael and Yitzhak Mastai and Ford, \{R. C.\} and Jichen Li",

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T1 - Neutron scattering study of water confined in periodic mesoporous organosilicas

AU - Levy, Esthy

AU - Kay Chan, Lok

AU - Yu, Dehong

AU - Marek Koza, Michael

AU - Mastai, Yitzhak

AU - Ford, R. C.

AU - Li, Jichen

PY - 2010/7

Y1 - 2010/7

N2 - A series of quasi-elastic neutron scattering measurements were performed using IN6 at the Institute Laue Langevin for a mesoporous organosilica material with phenyl functions, called phenyltriethoxysilane (PTES). The aim of the experiment was to study the diffusion dynamics of nano-scale water clusters inside the hydrophobic pores as a function of temperature and hydration. By fitting the Debye-Waller factor, the data show clearly the different behavior between water, both inside and outside the hydrophobic pores, which resembles bulk water. The mean thermal displacement 〈u2〉 of the external water increases with T almost linearly up to 353 K, while the internal water quickly reaches the maximum at T∼323 K, indicating the confinement by an averaged pore diameter of the porous organosilica.

AB - A series of quasi-elastic neutron scattering measurements were performed using IN6 at the Institute Laue Langevin for a mesoporous organosilica material with phenyl functions, called phenyltriethoxysilane (PTES). The aim of the experiment was to study the diffusion dynamics of nano-scale water clusters inside the hydrophobic pores as a function of temperature and hydration. By fitting the Debye-Waller factor, the data show clearly the different behavior between water, both inside and outside the hydrophobic pores, which resembles bulk water. The mean thermal displacement 〈u2〉 of the external water increases with T almost linearly up to 353 K, while the internal water quickly reaches the maximum at T∼323 K, indicating the confinement by an averaged pore diameter of the porous organosilica.

KW - Ice

KW - Inelastic neutron scattering

KW - Mesoporous organosilica

KW - Porous solids

KW - Water

UR - https://www.scopus.com/pages/publications/77953913690

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DO - 10.1016/j.jssc.2010.05.017

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SN - 0022-4596

VL - 183

SP - 1691

EP - 1696

JO - Journal of Solid State Chemistry

JF - Journal of Solid State Chemistry

IS - 7

ER -

Neutron scattering study of water confined in periodic mesoporous organosilicas

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