Synthesizing nanocrystal-assembled mesoporous magnesium oxide using cotton fibres as exotemplate

Rui Qin Sun; Lin Bing Sun; Yuan Chun; Qin Hua Xu; Hao Wu

doi:10.1016/j.micromeso.2007.08.006

Synthesizing nanocrystal-assembled mesoporous magnesium oxide using cotton fibres as exotemplate

Rui Qin Sun, Lin Bing Sun, Yuan Chun, Qin Hua Xu, Hao Wu

Ministry of Education of the People's Republic of China

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

56 Scopus citations

Abstract

A novel biomorphic nanocrystal-assembled mesoporous (NAM) magnesium oxides have been synthesized via an exotemplating pathway using cotton fibres as template and magnesium acetate as MgO precursor. These mesoporous MgO materials replicate the microtubular or zonal structure of the cotton morphology, and their frameworks are constructed by plenty of uniform MgO nanocrystals, which are different from those of the cotton template and reference MgO prepared by directly thermal-decomposition of MgO precursor. The mesoporous structure with narrow slit-like pores can be formed, if suitably chosen amounts of precursor magnesium acetate are used. These biomorphic NAM MgO materials have high surface areas, exhibit high selectivity in the catalytic decomposition of isopropanol, and display their potential for an effective basic catalyst or support.

Original language	English
Pages (from-to)	314-322
Number of pages	9
Journal	Microporous and Mesoporous Materials
Volume	111
Issue number	1-3
DOIs	https://doi.org/10.1016/j.micromeso.2007.08.006
State	Published - 15 Apr 2008
Externally published	Yes

Keywords

Cotton
Exotemplate
High specific surface area
Magnesium oxide
Nanocrystal-assembled mesopore

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10.1016/j.micromeso.2007.08.006

Cite this

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title = "Synthesizing nanocrystal-assembled mesoporous magnesium oxide using cotton fibres as exotemplate",

abstract = "A novel biomorphic nanocrystal-assembled mesoporous (NAM) magnesium oxides have been synthesized via an exotemplating pathway using cotton fibres as template and magnesium acetate as MgO precursor. These mesoporous MgO materials replicate the microtubular or zonal structure of the cotton morphology, and their frameworks are constructed by plenty of uniform MgO nanocrystals, which are different from those of the cotton template and reference MgO prepared by directly thermal-decomposition of MgO precursor. The mesoporous structure with narrow slit-like pores can be formed, if suitably chosen amounts of precursor magnesium acetate are used. These biomorphic NAM MgO materials have high surface areas, exhibit high selectivity in the catalytic decomposition of isopropanol, and display their potential for an effective basic catalyst or support.",

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AU - Sun, Rui Qin

AU - Sun, Lin Bing

AU - Chun, Yuan

AU - Xu, Qin Hua

AU - Wu, Hao

PY - 2008/4/15

Y1 - 2008/4/15

N2 - A novel biomorphic nanocrystal-assembled mesoporous (NAM) magnesium oxides have been synthesized via an exotemplating pathway using cotton fibres as template and magnesium acetate as MgO precursor. These mesoporous MgO materials replicate the microtubular or zonal structure of the cotton morphology, and their frameworks are constructed by plenty of uniform MgO nanocrystals, which are different from those of the cotton template and reference MgO prepared by directly thermal-decomposition of MgO precursor. The mesoporous structure with narrow slit-like pores can be formed, if suitably chosen amounts of precursor magnesium acetate are used. These biomorphic NAM MgO materials have high surface areas, exhibit high selectivity in the catalytic decomposition of isopropanol, and display their potential for an effective basic catalyst or support.

AB - A novel biomorphic nanocrystal-assembled mesoporous (NAM) magnesium oxides have been synthesized via an exotemplating pathway using cotton fibres as template and magnesium acetate as MgO precursor. These mesoporous MgO materials replicate the microtubular or zonal structure of the cotton morphology, and their frameworks are constructed by plenty of uniform MgO nanocrystals, which are different from those of the cotton template and reference MgO prepared by directly thermal-decomposition of MgO precursor. The mesoporous structure with narrow slit-like pores can be formed, if suitably chosen amounts of precursor magnesium acetate are used. These biomorphic NAM MgO materials have high surface areas, exhibit high selectivity in the catalytic decomposition of isopropanol, and display their potential for an effective basic catalyst or support.

KW - Cotton

KW - Exotemplate

KW - High specific surface area

KW - Magnesium oxide

KW - Nanocrystal-assembled mesopore

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Synthesizing nanocrystal-assembled mesoporous magnesium oxide using cotton fibres as exotemplate

Abstract

Keywords

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