Columnar Morphology of Porous Silicon Carbide as a Protein-Permeable Membrane for Biosensors and Other Applications

A.J. Rosenbloom; S. Nie; Yue Ke; Robert P. Devaty; Wolfgang J. Choyke

doi:10.4028/www.scientific.net/MSF.527-529.751

Paper Titles

Microwave Dielectric Loss Characterization of Silicon Carbide Wafers
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Columnar Pore Growth in n-Type 6H SiC
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A Comparison of Various Surface Finishes and the Effects on the Early Stages of Pore Formation during High Field Etching of SiC
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Brillouin Spectra of Porous p-Type 6H-SiC
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Columnar Morphology of Porous Silicon Carbide as a Protein-Permeable Membrane for Biosensors and Other Applications
p.751

Novel Polycrystalline SiC Films Containing Nanoscale Through-Pores by Selective APCVD
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Sol-Gel Silicon Carbide for Photonic Applications
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Formation, Morphology and Optical Properties of SiC Nanopowder
p.763

A Simple Method to Synthesize Nano-Sized 3C-SiC Powder Using Hexamethyldisilane in a CVD Reactor
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HomeMaterials Science ForumMaterials Science Forum Vols. 527-529Columnar Morphology of Porous Silicon Carbide as a...

Columnar Morphology of Porous Silicon Carbide as a Protein-Permeable Membrane for Biosensors and Other Applications

Abstract:

We present relative recovery data for six proteins diffusing through porous silicon carbide membranes having a hybrid columnar/dendritic morphology. These membranes are promising candidates for implantable biosensors. The results are interpreted using an effective medium model.

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Silicon Carbide and Related Materials 2005

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Materials Science Forum (Volumes 527-529)

Pages:

751-754

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.527-529.751

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Online since:

October 2006

Authors:

A.J. Rosenbloom, S. Nie, Yue Ke, Robert P. Devaty, Wolfgang J. Choyke

Keywords:

Biocompatibility, Biosensor, Microdialysis, Porous SiC, Protein, Sensor

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