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  • Highly stable porous silicon-carbon composites as label-free optical biosensors.

Highly stable porous silicon-carbon composites as label-free optical biosensors.

ACS nano (2012-11-03)
Chun Kwan Tsang, Timothy L Kelly, Michael J Sailor, Yang Yang Li
ABSTRACT

A stable, label-free optical biosensor based on a porous silicon-carbon (pSi-C) composite is demonstrated. The material is prepared by electrochemical anodization of crystalline Si in an HF-containing electrolyte to generate a porous Si template, followed by infiltration of poly(furfuryl) alcohol (PFA) and subsequent carbonization to generate the pSi-C composite as an optically smooth thin film. The pSi-C sensor is significantly more stable toward aqueous buffer solutions (pH 7.4 or 12) compared to thermally oxidized (in air, 800 °C), hydrosilylated (with undecylenic acid), or hydrocarbonized (with acetylene, 700 °C) porous Si samples prepared and tested under similar conditions. Aqueous stability of the pSi-C sensor is comparable to related optical biosensors based on porous TiO(2) or porous Al(2)O(3). Label-free optical interferometric biosensing with the pSi-C composite is demonstrated by detection of rabbit IgG on a protein-A-modified chip and confirmed with control experiments using chicken IgG (which shows no affinity for protein A). The pSi-C sensor binds significantly more of the protein A capture probe than porous TiO(2) or porous Al(2)O(3), and the sensitivity of the protein-A-modified pSi-C sensor to rabbit IgG is found to be ~2× greater than label-free optical biosensors constructed from these other two materials.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Furfuryl alcohol, 98%
Sigma-Aldrich
Furfuryl alcohol, ≥97%, FG
Sigma-Aldrich
Furfuryl alcohol, natural, ≥95%, FG