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AuthorYue, Q.
AuthorLi, J.
AuthorLuo, W.
AuthorZhang, Y.
AuthorElzatahry, A.A.
AuthorWang, X.
AuthorWang, C.
AuthorLi, W.
AuthorCheng, X.
AuthorAlghamdi, A.
AuthorAbdullah, A.M.
AuthorDeng, Y.
AuthorZhao, D.
Available date2015-12-29T12:54:36Z
Publication Date2015-10
Publication NameJournal of the American Chemical Society
ResourceScopus
CitationYue Q., Li J., Luo W., Zhang Y., Elzatahry A.A., Wang X., Wang C., Li W., Cheng X., Alghamdi A., Abdullah A.M., Deng Y., Zhao D., An Interface Coassembly in Biliquid Phase: Toward Core-Shell Magnetic Mesoporous Silica Microspheres with Tunable Pore Size, (2015) Journal of the American Chemical Society, 137 (41), pp. 13282-13289.
ISSN0002-7863
URIhttp://dx.doi.org/10.1021/jacs.5b05619
URIhttp://hdl.handle.net/10576/4016
AbstractCore-shell magnetic mesoporous silica microspheres (Magn-MSMs) with tunable large mesopores in the shell are highly desired in biocatalysis, magnetic bioseparation, and enrichment. In this study, a shearing assisted interface coassembly in n-hexane/water biliquid systems is developed to synthesize uniform Magn-MSMs with magnetic core and mesoporous silica shell for an efficient size-selective biocatalysis. The synthesis features the rational control over the electrostatic interaction among cationic surfactant molecules, silicate oligomers, and Fe3O4@RF microspheres (RF: resorcinol formaldehyde) in the presence of shearing-regulated solubilization of n-hexane in surfactant micelles. Through this multicomponent interface coassembly, surfactant-silica mesostructured composite has been uniformly deposited on the Fe3O4@RF microspheres, and core-shell Magn-MSMs are obtained after removing the surfactant and n-hexane. The obtained Magn-MSMs possess excellent water dispersibility, uniform diameter (600 nm), large and tunable perpendicular mesopores (5.0-9.0 nm), high surface area (498-623 m2/g), large pore volume (0.91-0.98 cm3/g), and high magnetization (34.5-37.1 emu/g). By utilization of their large and open mesopores, Magn-MSMs with a pore size of about 9.0 nm have been demonstrated to be able to immobilize a large bioenzyme (trypsin with size of 4.0 nm) with a high loading capacity of ?97 ?g/mg via chemically binding. Magn-MSMs with immobilized trypsin exhibit an excellent convenient and size selective enzymolysis of low molecular proteins in the mixture of proteins of different sizes and a good recycling performance by using the magnetic separability of the microspheres.
Languageen
PublisherAmerican Chemical Society
SubjectBiocatalysts
Catalysis
Cationic surfactants
Dyes
Hexane
Magnetism
Mesoporous materials
Microspheres
Pore size
Proteins
Shearing
Shells (structures)
Silicates
Surface active agents
Synthesis (chemical)
High magnetization
Immobilized trypsin
Magnetic bioseparation
Magnetic mesoporous silicas
Resorcinol formaldehydes
Surfactant micelles
Surfactant molecules
Water dispersibility
TitleAn Interface Coassembly in Biliquid Phase: Toward Core-Shell Magnetic Mesoporous Silica Microspheres with Tunable Pore Size
TypeArticle
Pagination13282-13289
Issue Number41
Volume Number137
dc.accessType Abstract Only


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