Thesis (Master's)--University of Washington, 2016-06Silica-based sol-gel materials as carriers for immobilization of biological species and subsequent controllable release have experienced great examination since past decade. The transparent and robust network possesses inert and stable physicochemical properties, allowing a variety of biomolecules to be successfully entrapped, including proteins, antibodies and antigens, cells. Controlled and effective release is usually achieved by functionalization of the silica matrices to physically cap the pores by modified nanoparticles serving as nanovalves. In this study, fusion proteins with a designed silica-binding peptide tag are immobilized during the sol-gel formation, and subsequently be rel...
The encapsulation of biomolecules in solid materials that retain the native properties of the molecu...
The main goal of this project is the study of the effect of the pore organization in silica gels sy...
The encapsulation of biomolecules in solid materials that retain the native properties of the molecu...
The potential of wet sol-gel derived silica gels as new matrices for the entrapment and sustained re...
The potential of wet sol-gel derived silica gels as new matrices for the entrapment and sustained re...
The development of silica-based sol-gel techniques compatible with the retention of protein structur...
The development of silica-based sol-gel techniques compatible with the retention of protein structur...
The development of silica-based sol-gel techniques compatible with the retention of protein structur...
Advancements in understanding and engineering of virus-based nanomaterials (VBNs) for biomedical app...
The entrapment of proteins using the sol-gel route provides a means to retain its native properties ...
Advancements in understanding and engineering of virus-based nanomaterials (VBNs) for biomedical app...
Advancements in understanding and engineering of virus-based nanomaterials (VBNs) for biomedical app...
Protein entrapment within silica matrices during sol–gel formation is an effective way of producing ...
Abstract: The encapsulation of biomolecules in solid materials that retain the native properties of ...
Copyright © 2013 Yu-Cheng Chen et al. This is an open access article distributed under the Creative ...
The encapsulation of biomolecules in solid materials that retain the native properties of the molecu...
The main goal of this project is the study of the effect of the pore organization in silica gels sy...
The encapsulation of biomolecules in solid materials that retain the native properties of the molecu...
The potential of wet sol-gel derived silica gels as new matrices for the entrapment and sustained re...
The potential of wet sol-gel derived silica gels as new matrices for the entrapment and sustained re...
The development of silica-based sol-gel techniques compatible with the retention of protein structur...
The development of silica-based sol-gel techniques compatible with the retention of protein structur...
The development of silica-based sol-gel techniques compatible with the retention of protein structur...
Advancements in understanding and engineering of virus-based nanomaterials (VBNs) for biomedical app...
The entrapment of proteins using the sol-gel route provides a means to retain its native properties ...
Advancements in understanding and engineering of virus-based nanomaterials (VBNs) for biomedical app...
Advancements in understanding and engineering of virus-based nanomaterials (VBNs) for biomedical app...
Protein entrapment within silica matrices during sol–gel formation is an effective way of producing ...
Abstract: The encapsulation of biomolecules in solid materials that retain the native properties of ...
Copyright © 2013 Yu-Cheng Chen et al. This is an open access article distributed under the Creative ...
The encapsulation of biomolecules in solid materials that retain the native properties of the molecu...
The main goal of this project is the study of the effect of the pore organization in silica gels sy...
The encapsulation of biomolecules in solid materials that retain the native properties of the molecu...
Add to ORKG