Immobilization of Proteins in Ormosil Gels: Functional Properties and Applications

Organically modified silica (Ormosil) gels are three-dimensional matrices obtained by co-polymerizing tetraalkyl orthosilicates and organoalkoxysilanes through the sol-gel technology. Ormosil matrices are highly flexible with respect to macroscopic size and shape, as they can be prepared in the form...
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Autor*in:	Luca Ronda [verfasserIn] Stefano Bettati Stefano Bruno

Format:	Artikel
Sprache:	Englisch

Erschienen:	2015

Übergeordnetes Werk:	Enthalten in: Current organic chemistry - Hilversum [u.a.] : Bentham Science Publishers, 1997, 19(2015), 17, Seite 1677-1683
Übergeordnetes Werk:	volume:19 ; year:2015 ; number:17 ; pages:1677-1683

Links:	Volltext Link aufrufen

DOI / URN:	10.2174/1385272819666150429232239

Katalog-ID:	OLC1960511076

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title_auth	Immobilization of Proteins in Ormosil Gels: Functional Properties and Applications
abstract	Organically modified silica (Ormosil) gels are three-dimensional matrices obtained by co-polymerizing tetraalkyl orthosilicates and organoalkoxysilanes through the sol-gel technology. Ormosil matrices are highly flexible with respect to macroscopic size and shape, as they can be prepared in the form of monoliths, layers, powders and nanoparticles, and to their physical-chemical properties, with special regard to hydrophobicity or specific functionalization of their alkyl and aryl groups. This makes Ormosils a very promising matrix, though not widely exploited so far, for the immobilization of enzymes and other biomolecules either by encapsulation within the gel matrix or by surface decoration of nanoparticles. Potential applications range from the development of biocatalysts and bioremediation devices to intracellular drug delivery and photodynamic therapy.
abstractGer	Organically modified silica (Ormosil) gels are three-dimensional matrices obtained by co-polymerizing tetraalkyl orthosilicates and organoalkoxysilanes through the sol-gel technology. Ormosil matrices are highly flexible with respect to macroscopic size and shape, as they can be prepared in the form of monoliths, layers, powders and nanoparticles, and to their physical-chemical properties, with special regard to hydrophobicity or specific functionalization of their alkyl and aryl groups. This makes Ormosils a very promising matrix, though not widely exploited so far, for the immobilization of enzymes and other biomolecules either by encapsulation within the gel matrix or by surface decoration of nanoparticles. Potential applications range from the development of biocatalysts and bioremediation devices to intracellular drug delivery and photodynamic therapy.
abstract_unstemmed	Organically modified silica (Ormosil) gels are three-dimensional matrices obtained by co-polymerizing tetraalkyl orthosilicates and organoalkoxysilanes through the sol-gel technology. Ormosil matrices are highly flexible with respect to macroscopic size and shape, as they can be prepared in the form of monoliths, layers, powders and nanoparticles, and to their physical-chemical properties, with special regard to hydrophobicity or specific functionalization of their alkyl and aryl groups. This makes Ormosils a very promising matrix, though not widely exploited so far, for the immobilization of enzymes and other biomolecules either by encapsulation within the gel matrix or by surface decoration of nanoparticles. Potential applications range from the development of biocatalysts and bioremediation devices to intracellular drug delivery and photodynamic therapy.
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title_short	Immobilization of Proteins in Ormosil Gels: Functional Properties and Applications
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Immobilization of Proteins in Ormosil Gels: Functional Properties and Applications

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