Palm oil based fatty alcohols templated mesoporous silica and silica spheres
Mesoporous silica xerogels with wormhole-like pore structure were successfully synthesized using a series of surfactantless oil-in-water emulsion at room temperature. The surfactantless emulsion systems consisted of palm-oil derived fatty alcohols having several carbon chain lengths to act as mesopo...
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my.uniten.dspace-304212023-12-29T15:47:40Z Palm oil based fatty alcohols templated mesoporous silica and silica spheres Misran H. Singh R. Ghazali M.J. 6506899840 41061958200 23099803300 fatty alcohols monodisperse silica spheres palm oil Surfactantless wormhole-like Alcohols Calcination Chain length Emulsification Microemulsions Pore size Silica Silica gel Spheres Surface active agents Synthesis (chemical) Vegetable oils Xerogels Fatty alcohols Monodisperse silica Palm oil Surfactantless wormhole-like Mesoporous materials Mesoporous silica xerogels with wormhole-like pore structure were successfully synthesized using a series of surfactantless oil-in-water emulsion at room temperature. The surfactantless emulsion systems consisted of palm-oil derived fatty alcohols having several carbon chain lengths to act as mesoporous templates in place of commercial surfactants in a direct baseacid catalyzed solgel method. This method allowed direct decomposition of fatty alcohols in situ during calcination process to create mesoporosity in the materials. The mesoporous silica xerogels exhibited relatively high surface area at ca. 505 m2/g and pore sizes at ca. 8 nm to 13 nm as the carbon chain lengths were varied. The pore size obtained in this study was larger than the conventional MCM-41 materials (at ca. 2 nm). The mesopores were generated from the interstices of the primary particles (framework-confined porosity) and secondary particles (textural porosity). Furthermore, by changing the co-solvent amount and oil/water ratio, surfactantless oil-in-water microemulsions were obtained. These microemulsions were useful in the synthesis of monodispersed silica spheres. The size of the silica spheres could be controlled at two different size clusters, ca. 50200 nm and at ca. 500 nm. � 2011 World Scientific Publishing Company. Final 2023-12-29T07:47:40Z 2023-12-29T07:47:40Z 2011 Article 10.1142/S0219581X1100960X 2-s2.0-82955169567 https://www.scopus.com/inward/record.uri?eid=2-s2.0-82955169567&doi=10.1142%2fS0219581X1100960X&partnerID=40&md5=ef90c69043bfdc55167a484157d8a076 https://irepository.uniten.edu.my/handle/123456789/30421 10 6 1275 1281 Scopus |
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fatty alcohols monodisperse silica spheres palm oil Surfactantless wormhole-like Alcohols Calcination Chain length Emulsification Microemulsions Pore size Silica Silica gel Spheres Surface active agents Synthesis (chemical) Vegetable oils Xerogels Fatty alcohols Monodisperse silica Palm oil Surfactantless wormhole-like Mesoporous materials |
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fatty alcohols monodisperse silica spheres palm oil Surfactantless wormhole-like Alcohols Calcination Chain length Emulsification Microemulsions Pore size Silica Silica gel Spheres Surface active agents Synthesis (chemical) Vegetable oils Xerogels Fatty alcohols Monodisperse silica Palm oil Surfactantless wormhole-like Mesoporous materials Misran H. Singh R. Ghazali M.J. Palm oil based fatty alcohols templated mesoporous silica and silica spheres |
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Mesoporous silica xerogels with wormhole-like pore structure were successfully synthesized using a series of surfactantless oil-in-water emulsion at room temperature. The surfactantless emulsion systems consisted of palm-oil derived fatty alcohols having several carbon chain lengths to act as mesoporous templates in place of commercial surfactants in a direct baseacid catalyzed solgel method. This method allowed direct decomposition of fatty alcohols in situ during calcination process to create mesoporosity in the materials. The mesoporous silica xerogels exhibited relatively high surface area at ca. 505 m2/g and pore sizes at ca. 8 nm to 13 nm as the carbon chain lengths were varied. The pore size obtained in this study was larger than the conventional MCM-41 materials (at ca. 2 nm). The mesopores were generated from the interstices of the primary particles (framework-confined porosity) and secondary particles (textural porosity). Furthermore, by changing the co-solvent amount and oil/water ratio, surfactantless oil-in-water microemulsions were obtained. These microemulsions were useful in the synthesis of monodispersed silica spheres. The size of the silica spheres could be controlled at two different size clusters, ca. 50200 nm and at ca. 500 nm. � 2011 World Scientific Publishing Company. |
| author2 |
6506899840 |
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6506899840 Misran H. Singh R. Ghazali M.J. |
| format |
Article |
| author |
Misran H. Singh R. Ghazali M.J. |
| author_sort |
Misran H. |
| title |
Palm oil based fatty alcohols templated mesoporous silica and silica spheres |
| title_short |
Palm oil based fatty alcohols templated mesoporous silica and silica spheres |
| title_full |
Palm oil based fatty alcohols templated mesoporous silica and silica spheres |
| title_fullStr |
Palm oil based fatty alcohols templated mesoporous silica and silica spheres |
| title_full_unstemmed |
Palm oil based fatty alcohols templated mesoporous silica and silica spheres |
| title_sort |
palm oil based fatty alcohols templated mesoporous silica and silica spheres |
| publishDate |
2023 |
| _version_ |
1806425499249934336 |