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Aluminium-Based Surfactant Mesophases Structurally and Morphologically Controlled by Anions

Aluminium-based dodecyl sulfate mesophases were synthesized by the homogeneous precipitation from a mixture of aluminium nitrate, sodium dodecyl sulfate, urea and water with or without five kinds of additional anions. The addition of monovalent Cl^sup -^, CH^sub 3^COO^sup -^ and HCOO^sup -^ anions y...

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Published in:	Journal of porous materials 1998-05, Vol.5 (2), p.133-138
Main Authors:	Yada, Mitsunori, Hiyoshi, Hiroaki, Machida, Masato, Kijima, Tsuyoshi
Format:	Article
Language:	English
Subjects:	Aluminium Aluminum Anions Mesophase Morphology Sodium Specific surface Sulfates
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container_issue	2
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container_title	Journal of porous materials
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creator	Yada, Mitsunori Hiyoshi, Hiroaki Machida, Masato Kijima, Tsuyoshi
description	Aluminium-based dodecyl sulfate mesophases were synthesized by the homogeneous precipitation from a mixture of aluminium nitrate, sodium dodecyl sulfate, urea and water with or without five kinds of additional anions. The addition of monovalent Cl^sup -^, CH^sub 3^COO^sup -^ and HCOO^sup -^ anions yielded a hexagonal mesophase, whereas F^sup -^ anions induced a different mesophase. The crystallinities of these mesophases increased in the following order: NO^sub 3^^sup -^ and Cl^sup -^>CH^sub 3^ COO^sup -^>HCOO^sup -^>F^sup -^, corresponding to the reverse order of affinity for Al^sup 3+^. The resulting mesophases were also largely affected in morphology by the anion species added to form worm-like shaped particles for NO^sub 3^^sup -^ and/or Cl^sup -^ anions, and widely varying shapes of particles for the others. On calcination, these mesophases were transformed into α-alumina particles with macro pores having the specific surface area of ca. 20 m^sup 2^g^sup -1^. On the other hand, the addition of divalent SO^sub 4^^sup 2-^ anions or the single use of aluminium sulfate led to a mesophase with a structural period as long as 6 nm, which was deorganized into a layered phase with an interlayer spacing of 1.4 nm.[PUBLICATION ABSTRACT]
doi_str_mv	10.1023/A:1009697421580
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The addition of monovalent Cl^sup -^, CH^sub 3^COO^sup -^ and HCOO^sup -^ anions yielded a hexagonal mesophase, whereas F^sup -^ anions induced a different mesophase. The crystallinities of these mesophases increased in the following order: NO^sub 3^^sup -^ and Cl^sup -^>CH^sub 3^ COO^sup -^>HCOO^sup -^>F^sup -^, corresponding to the reverse order of affinity for Al^sup 3+^. The resulting mesophases were also largely affected in morphology by the anion species added to form worm-like shaped particles for NO^sub 3^^sup -^ and/or Cl^sup -^ anions, and widely varying shapes of particles for the others. On calcination, these mesophases were transformed into α-alumina particles with macro pores having the specific surface area of ca. 20 m^sup 2^g^sup -1^. 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The addition of monovalent Cl^sup -^, CH^sub 3^COO^sup -^ and HCOO^sup -^ anions yielded a hexagonal mesophase, whereas F^sup -^ anions induced a different mesophase. The crystallinities of these mesophases increased in the following order: NO^sub 3^^sup -^ and Cl^sup -^>CH^sub 3^ COO^sup -^>HCOO^sup -^>F^sup -^, corresponding to the reverse order of affinity for Al^sup 3+^. The resulting mesophases were also largely affected in morphology by the anion species added to form worm-like shaped particles for NO^sub 3^^sup -^ and/or Cl^sup -^ anions, and widely varying shapes of particles for the others. On calcination, these mesophases were transformed into α-alumina particles with macro pores having the specific surface area of ca. 20 m^sup 2^g^sup -1^. 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subjects	Aluminium Aluminum Anions Mesophase Morphology Sodium Specific surface Sulfates
title	Aluminium-Based Surfactant Mesophases Structurally and Morphologically Controlled by Anions
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