Characterization of worm-like micro- and mesoporous silicas by small-angle scattering and high-resolution adsorption porosimetry

Bernd Smarsly; Matthias Thommes; Peter I. Ravikovitch; Alexander V. Neimark

doi:10.1007/s10450-005-6001-9

Characterization of worm-like micro- and mesoporous silicas by small-angle scattering and high-resolution adsorption porosimetry

Bernd Smarsly, Matthias Thommes, Peter I. Ravikovitch, Alexander V. Neimark

School of Engineering, Chemical & Biochemical Engineering

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

30 Scopus citations

Abstract

Mesoporous silica with worm-like pores of 9-10 nm in size were studied by small-angle neutron scattering (SANS) and high-resolution porosimetry, using nitrogen at 77 K and argon at 87 K. The pore sizes determined from SANS are in excellent agreement with those obtained from a recently developed non-local density functional theory (NLDFT) approach. Furthermore, the additional micropores in the mesopore walls could be quantified by SANS and physisorption, and again good agreement between both methods was observed. Our results clearly demonstrate that the NLDFT approach allows an accurate determination of the pore size distribution of materials which contain both narrow micropores and mesopores larger than 10 nm.

Original language	English (US)
Pages (from-to)	653-655
Number of pages	3
Journal	Adsorption
Volume	11
Issue number	1
DOIs	https://doi.org/10.1007/s10450-005-6001-9
State	Published - Jul 2005

All Science Journal Classification (ASJC) codes

Chemistry(all)
Chemical Engineering(all)
Surfaces and Interfaces

Keywords

Mesoporous silica
Nitrogen sorption
SANS

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10.1007/s10450-005-6001-9

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title = "Characterization of worm-like micro- and mesoporous silicas by small-angle scattering and high-resolution adsorption porosimetry",

abstract = "Mesoporous silica with worm-like pores of 9-10 nm in size were studied by small-angle neutron scattering (SANS) and high-resolution porosimetry, using nitrogen at 77 K and argon at 87 K. The pore sizes determined from SANS are in excellent agreement with those obtained from a recently developed non-local density functional theory (NLDFT) approach. Furthermore, the additional micropores in the mesopore walls could be quantified by SANS and physisorption, and again good agreement between both methods was observed. Our results clearly demonstrate that the NLDFT approach allows an accurate determination of the pore size distribution of materials which contain both narrow micropores and mesopores larger than 10 nm.",

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T1 - Characterization of worm-like micro- and mesoporous silicas by small-angle scattering and high-resolution adsorption porosimetry

AU - Smarsly, Bernd

AU - Thommes, Matthias

AU - Ravikovitch, Peter I.

AU - Neimark, Alexander V.

PY - 2005/7

Y1 - 2005/7

N2 - Mesoporous silica with worm-like pores of 9-10 nm in size were studied by small-angle neutron scattering (SANS) and high-resolution porosimetry, using nitrogen at 77 K and argon at 87 K. The pore sizes determined from SANS are in excellent agreement with those obtained from a recently developed non-local density functional theory (NLDFT) approach. Furthermore, the additional micropores in the mesopore walls could be quantified by SANS and physisorption, and again good agreement between both methods was observed. Our results clearly demonstrate that the NLDFT approach allows an accurate determination of the pore size distribution of materials which contain both narrow micropores and mesopores larger than 10 nm.

AB - Mesoporous silica with worm-like pores of 9-10 nm in size were studied by small-angle neutron scattering (SANS) and high-resolution porosimetry, using nitrogen at 77 K and argon at 87 K. The pore sizes determined from SANS are in excellent agreement with those obtained from a recently developed non-local density functional theory (NLDFT) approach. Furthermore, the additional micropores in the mesopore walls could be quantified by SANS and physisorption, and again good agreement between both methods was observed. Our results clearly demonstrate that the NLDFT approach allows an accurate determination of the pore size distribution of materials which contain both narrow micropores and mesopores larger than 10 nm.

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KW - Nitrogen sorption

KW - SANS

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Characterization of worm-like micro- and mesoporous silicas by small-angle scattering and high-resolution adsorption porosimetry

Abstract

All Science Journal Classification (ASJC) codes

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