Phase evolution in the alkane–P123–water–TEOS quadru-component system: a feasible route to different complex mesostructured materials

Junming Sun; Ding Ma; He Zhang; Chunlei Wang; Xinhe Bao; Dang Sheng Su; Achim Klein-Hoffmann; Gisela Weinberg; Stephen Mann

doi:10.1039/B602374F

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Phase evolution in the alkane–P123–water–TEOS quadru-component system: a feasible route to different complex mesostructured materials

Journal article

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Phase evolution in the alkane–P123–water–TEOS quadru-component system: a feasible route to different complex mesostructured materials

Junming Sun, Ding Ma, He Zhang, Chunlei Wang, Xinhe Bao, Dang Sheng Su, Achim Klein-Hoffmann, Gisela Weinberg and Stephen Mann

Journal of materials chemistry, Vol.16(16), pp.1507-1510

2006

DOI: https://doi.org/10.1039/B602374F

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https://hdl.handle.net/2376/114545

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Abstract

Materials Chemistry

Directed by the temperature-induced phase transformation in the alkane (from heptane to dodecane)–P123–water–TEOS quadru-component system, i.e., from a swollen inverse hexagonal phase (H2) to a swollen lamellar phase (Lα) and then to a swollen normal micelles phase (L1), complex silica materials, such as mesoporous nanofibres, multilamellar vesicles (MLVs) and mesocellular foams (MCFs), are constructed.

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Title: Phase evolution in the alkane–P123–water–TEOS quadru-component system: a feasible route to different complex mesostructured materials
Creators: Junming Sun
Ding Ma
He Zhang
Chunlei Wang
Xinhe Bao
Dang Sheng Su
Achim Klein-Hoffmann
Gisela Weinberg
Stephen Mann
Publication Details: Journal of materials chemistry, Vol.16(16), pp.1507-1510
Academic Unit: School of Chemical Engineering and Bioengineering; School of Electrical Engineering and Computer Science
Identifiers: 99900548344501842
Language: English
Resource Type: Journal article