Karen M. Grace scite author profile

Optical phenomena such as fluorescence, phosphorescence, polarization, interference and non-linearity have been extensively used for biosensing applications. Optical waveguides (both planar and fiber-optic) are comprised of a material with high permittivity/high refractive index surrounded on all sides by materials with lower refractive indices, such as a substrate and the media to be sensed. This arrangement allows coupled light to propagate through the high refractive index waveguide by total internal reflection and generates an electromagnetic wave—the evanescent field—whose amplitude decreases exponentially as the distance from the surface increases. Excitation of fluorophores within the evanescent wave allows for sensitive detection while minimizing background fluorescence from complex, “dirty” biological samples. In this review, we will describe the basic principles, advantages and disadvantages of planar optical waveguide-based biodetection technologies. This discussion will include already commercialized technologies (e.g., Corning’s EPIC® Ô, SRU Biosystems’ BIND™, Zeptosense®, etc.) and new technologies that are under research and development. We will also review differing assay approaches for the detection of various biomolecules, as well as the thin-film coatings that are often required for waveguide functionalization and effective detection. Finally, we will discuss reverse-symmetry waveguides, resonant waveguide grating sensors and metal-clad leaky waveguides as alternative signal transducers in optical biosensing.

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Functional PEG-Modified Thin Films for Biological Detection

Anderson

Dattelbaum

Montaño

et al. 2008

Langmuir

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We report a general procedure to prepare functional organic thin films for biological assays on oxide surfaces. Silica surfaces were functionalized by self-assembly of an amine-terminated silane film using both vapor- and solution-phase deposition of 3'-aminopropylmethyldiethoxysilane (APMDES). We found that vapor-phase deposition of APMDES under reduced pressure produced the highest quality monolayer films with uniform surface coverage, as determined by atomic force microscopy (AFM), ellipsometry, and contact angle measurements. The amine-terminated films were chemically modified with a mixture of carboxylic acid-terminated poly(ethylene glycol) (PEG) chains of varying functionality. A fraction of the PEG chains (0.1-10 mol %) terminated in biotin, which produced a surface with an affinity toward streptavidin. When used in pseudo-sandwich assays on waveguide platforms for the detection of Bacillus anthracis protective antigen (PA), these functional PEG surfaces significantly reduced nonspecific binding to the waveguide surface while allowing for highly specific binding. Detection of PA was used to validate these films for sensing applications in both buffer and complex media. Ultimately, these results represent a step toward the realization of a robust, reusable, and autonomous biosensor.

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Pathogen detection using single mode planar optical waveguides

Martinez

Grace

et al. 2005

J. Mater. Chem.

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Planar optical waveguide-based biosensor for the quantitative detection of tumor markers

Mukundan

Holt

et al. 2009

Sensors and Actuators B: Chemical

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The energy spectrometer for particles (ESP): Instrument description and orbital performance

Meier¹,

Belian²,

Cayton³

et al. 1994

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an afllrmative action/equal opportunlty employer, Is operated by the Unhrerslty of California for the U.S. Department of Energy under contract W-7405-ENG-36. By acceptance of this article, the publisher recognizes that the US. Government retalns a nonexclusive, royalty-free license lo publlsh or reproduce the publlshed form of thls contnbution, or to allow others to do so, for U.S. Government purposes. The Los Alamos National Laboratory requests that the publisher ldentlfy thls artlcle as work perlormed under the auspices of the U.S. Department of Energy.

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Karen M. Grace

Waveguide-Based Biosensors for Pathogen Detection

Functional PEG-Modified Thin Films for Biological Detection

Pathogen detection using single mode planar optical waveguides

Planar optical waveguide-based biosensor for the quantitative detection of tumor markers

The energy spectrometer for particles (ESP): Instrument description and orbital performance

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