Lars H. Pedersen scite author profile

Abstract:We present experimental results showing that long-period gratings in photonic crystal fibers can be used as sensitive biochemical sensors. A layer of biomolecules was immobilized on the sides of the holes of the photonic crystal fiber and by observing the shift in the resonant wavelength of a long-period grating it was possible to measure the thickness of the layer. The long-period gratings were inscribed in a large-mode area silica photonic crystal fiber with a CO 2 laser. The thicknesses of a monolayer of poly-L-lysine and double-stranded DNA was measured using the device. We find that the grating has a sensitivity of approximately 1.4nm/1nm in terms of the shift in resonance wavelength in nm per nm thickness of biomolecule layer.

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Photonic crystal fiber based evanescent-wave sensor for detection of biomolecules in aqueous solutions

Jensen

et al. 2004

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Selective detection of antibodies in microstructured polymer optical fibers

Jensen¹,

Høiby²,

Emiliyanov³

et al. 2005

Opt. Express

235

137

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We demonstrate selective detection of fluorophore labeled antibodies from minute samples probed by a sensor layer of complementary biomolecules immobilized inside the air holes of microstructured Polymer Optical Fiber (mPOF). The fiber core is defined by a ring of 6 air holes and a simple procedure was applied to selectively capture either alpha-streptavidin or alpha-CRP antibodies inside these air holes. A sensitive and easy-to-use fluorescence method was used for the optical detection. Our results show that mPOF based biosensors can provide reliable and selective antibody detection in ultra small sample volumes.

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Towards biochips using microstructured optical fiber sensors

et al. 2006

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In this paper we present the first incorporation of a microstructured optical fiber (MOF) into biochip applications. A 16-mm-long piece of MOF is incorporated into an optic-fluidic coupler chip, which is fabricated in PMMA polymer using a CO(2) laser. The developed chip configuration allows the continuous control of liquid flow through the MOF and simultaneous optical characterization. While integrated in the chip, the MOF is functionalized towards the capture of a specific single-stranded DNA string by immobilizing a sensing layer on the microstructured internal surfaces of the fiber. The sensing layer contains the DNA string complementary to the target DNA sequence and thus operates through the highly selective DNA hybridization process. Optical detection of the captured DNA was carried out using the evanescent-wave-sensing principle. Owing to the small size of the chip, the presented technique allows for analysis of sample volumes down to 300 nL and the fabrication of miniaturized portable devices.

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Selective Serial Multi-Antibody Biosensing with TOPAS Microstructured Polymer Optical Fibers

Emiliyanov

Høiby²,

Pedersen

et al. 2013

Sensors

113

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We have developed a fluorescence-based fiber-optical biosensor, which can selectively detect different antibodies in serial at preselected positions inside a single piece of fiber. The fiber is a microstructured polymer optical fiber fabricated from TOPAS cyclic olefin copolymer, which allows for UV activation of localized sensor layers inside the holes of the fiber. Serial fluorescence-based selective sensing of Cy3-labelled α-streptavidin and Cy5-labelled α-CRP antibodies is demonstrated.

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Lars H. Pedersen

Photonic crystal fiber long-period gratings for biochemical sensing

Photonic crystal fiber based evanescent-wave sensor for detection of biomolecules in aqueous solutions

Selective detection of antibodies in microstructured polymer optical fibers

Towards biochips using microstructured optical fiber sensors

Selective Serial Multi-Antibody Biosensing with TOPAS Microstructured Polymer Optical Fibers

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