Optimizing surfactant removal from a soft-templated ordered mesoporous carbon precursor: an in situ SAXS study

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Optimizing surfactant removal from a soft-templated ordered mesoporous carbon precursor: an in situ SAXS study. / Rauscher, Max; Seyffertitz, Malina; Kohns, Richard et al.
In: Journal of applied crystallography, Vol. 56.2023, No. 3, 02.05.2023, p. 801-809.

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@article{89384fda614549058d78c67bfac7133f,
title = "Optimizing surfactant removal from a soft-templated ordered mesoporous carbon precursor: an in situ SAXS study",
abstract = "In situ small-angle X-ray scattering (SAXS) was employed to identify critical parameters during thermal treatment for template removal of an ordered mesoporous carbon precursor synthesized via a direct soft-templating route. The structural parameters obtained from the SAXS data as a function of time were the lattice parameter of the 2D hexagonal structure, the diameter of the cylindrical mesostructures and a power-law exponent characterizing the interface roughness. Moreover, detailed information on contrast changes and pore lattice order was obtained from analysis of the integrated SAXS intensity of the Bragg and diffuse scattering separately. Five characteristic regions during heat treatment were identified and discussed regarding the underlying dominant processes. The influence of temperature and O2/N2 ratio on the final structure was analyzed, and parameter ranges were identified for an optimized template removal without strongly affecting the matrix. The results indicate that the final structure and controllability of the process are optimum for temperatures between 260 and 300°C with a gas flow containing 2 mol% of O2.",
keywords = "SAXS, In Situ Behandlung, carbon, Mesoporous carbon, calcination, ordered mesoporous carbon",
author = "Max Rauscher and Malina Seyffertitz and Richard Kohns and Sebastian Stock and Heinz Amenitsch and Nicola Huesing and Oskar Paris",
note = "Publisher Copyright: {\textcopyright} 2023 International Union of Crystallography. All rights reserved.",
year = "2023",
month = may,
day = "2",
doi = "10.1107/S1600576723003886",
language = "English",
volume = "56.2023",
pages = "801--809",
journal = "Journal of applied crystallography",
issn = "1600-5767",
publisher = "International Union of Crystallography",
number = "3",

}

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TY - JOUR

T1 - Optimizing surfactant removal from a soft-templated ordered mesoporous carbon precursor

T2 - an in situ SAXS study

AU - Rauscher, Max

AU - Seyffertitz, Malina

AU - Kohns, Richard

AU - Stock, Sebastian

AU - Amenitsch, Heinz

AU - Huesing, Nicola

AU - Paris, Oskar

N1 - Publisher Copyright: © 2023 International Union of Crystallography. All rights reserved.

PY - 2023/5/2

Y1 - 2023/5/2

N2 - In situ small-angle X-ray scattering (SAXS) was employed to identify critical parameters during thermal treatment for template removal of an ordered mesoporous carbon precursor synthesized via a direct soft-templating route. The structural parameters obtained from the SAXS data as a function of time were the lattice parameter of the 2D hexagonal structure, the diameter of the cylindrical mesostructures and a power-law exponent characterizing the interface roughness. Moreover, detailed information on contrast changes and pore lattice order was obtained from analysis of the integrated SAXS intensity of the Bragg and diffuse scattering separately. Five characteristic regions during heat treatment were identified and discussed regarding the underlying dominant processes. The influence of temperature and O2/N2 ratio on the final structure was analyzed, and parameter ranges were identified for an optimized template removal without strongly affecting the matrix. The results indicate that the final structure and controllability of the process are optimum for temperatures between 260 and 300°C with a gas flow containing 2 mol% of O2.

AB - In situ small-angle X-ray scattering (SAXS) was employed to identify critical parameters during thermal treatment for template removal of an ordered mesoporous carbon precursor synthesized via a direct soft-templating route. The structural parameters obtained from the SAXS data as a function of time were the lattice parameter of the 2D hexagonal structure, the diameter of the cylindrical mesostructures and a power-law exponent characterizing the interface roughness. Moreover, detailed information on contrast changes and pore lattice order was obtained from analysis of the integrated SAXS intensity of the Bragg and diffuse scattering separately. Five characteristic regions during heat treatment were identified and discussed regarding the underlying dominant processes. The influence of temperature and O2/N2 ratio on the final structure was analyzed, and parameter ranges were identified for an optimized template removal without strongly affecting the matrix. The results indicate that the final structure and controllability of the process are optimum for temperatures between 260 and 300°C with a gas flow containing 2 mol% of O2.

KW - SAXS

KW - In Situ Behandlung

KW - carbon

KW - Mesoporous carbon

KW - calcination

KW - ordered mesoporous carbon

UR - http://www.scopus.com/inward/record.url?scp=85171530192&partnerID=8YFLogxK

U2 - 10.1107/S1600576723003886

DO - 10.1107/S1600576723003886

M3 - Article

AN - SCOPUS:85171530192

VL - 56.2023

SP - 801

EP - 809

JO - Journal of applied crystallography

JF - Journal of applied crystallography

SN - 1600-5767

IS - 3

ER -