Spatially resolved biosensing with a molded plasmonic crystal

Viktor Malyarchuk; Matthew E. Stewart; Ralph G. Nuzzo; John A. Rogers

doi:10.1063/1.2740591

Spatially resolved biosensing with a molded plasmonic crystal

Viktor Malyarchuk
, Matthew E. Stewart
, Ralph G. Nuzzo
, John A. Rogers

Research output: Contribution to journal › Article › peer-review

Abstract

The authors report the use of a type of quasi-three-dimensional plasmonic crystal for spatially resolved detection of biochemical binding events, with a spatial resolution of tens of microns and submonolayer binding sensitivity. In demonstration experiments, fibrinogen patterns nonspecifically adsorbed to the crystal surface were spatially and spectroscopically resolved using monochromatic and white light illumination. The experimental simplicity of the fabrication and use of these sensors, their compact form factors together with the high detection sensitivities and spatial resolution that can be achieved, collectively make these devices interesting as candidates for label-free array-based bioanalytical detection.

Original language	English (US)
Article number	203113
Journal	Applied Physics Letters
Volume	90
Issue number	20
DOIs	https://doi.org/10.1063/1.2740591
State	Published - 2007

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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10.1063/1.2740591

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title = "Spatially resolved biosensing with a molded plasmonic crystal",

abstract = "The authors report the use of a type of quasi-three-dimensional plasmonic crystal for spatially resolved detection of biochemical binding events, with a spatial resolution of tens of microns and submonolayer binding sensitivity. In demonstration experiments, fibrinogen patterns nonspecifically adsorbed to the crystal surface were spatially and spectroscopically resolved using monochromatic and white light illumination. The experimental simplicity of the fabrication and use of these sensors, their compact form factors together with the high detection sensitivities and spatial resolution that can be achieved, collectively make these devices interesting as candidates for label-free array-based bioanalytical detection.",

author = "Viktor Malyarchuk and Stewart, \{Matthew E.\} and Nuzzo, \{Ralph G.\} and Rogers, \{John A.\}",

note = "The authors acknowledge the support of the U.S. Department of Energy (DEFG02-91-ER45439). All measurements reported here were carried out in the Center for Microanalysis of Materials, University of Illinois, which is partially supported by the U.S. Department of Energy under Grant No. DEFG02-91-ER45439.",

year = "2007",

doi = "10.1063/1.2740591",

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volume = "90",

journal = "Applied Physics Letters",

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AU - Malyarchuk, Viktor

AU - Stewart, Matthew E.

AU - Nuzzo, Ralph G.

AU - Rogers, John A.

N1 - The authors acknowledge the support of the U.S. Department of Energy (DEFG02-91-ER45439). All measurements reported here were carried out in the Center for Microanalysis of Materials, University of Illinois, which is partially supported by the U.S. Department of Energy under Grant No. DEFG02-91-ER45439.

PY - 2007

Y1 - 2007

N2 - The authors report the use of a type of quasi-three-dimensional plasmonic crystal for spatially resolved detection of biochemical binding events, with a spatial resolution of tens of microns and submonolayer binding sensitivity. In demonstration experiments, fibrinogen patterns nonspecifically adsorbed to the crystal surface were spatially and spectroscopically resolved using monochromatic and white light illumination. The experimental simplicity of the fabrication and use of these sensors, their compact form factors together with the high detection sensitivities and spatial resolution that can be achieved, collectively make these devices interesting as candidates for label-free array-based bioanalytical detection.

AB - The authors report the use of a type of quasi-three-dimensional plasmonic crystal for spatially resolved detection of biochemical binding events, with a spatial resolution of tens of microns and submonolayer binding sensitivity. In demonstration experiments, fibrinogen patterns nonspecifically adsorbed to the crystal surface were spatially and spectroscopically resolved using monochromatic and white light illumination. The experimental simplicity of the fabrication and use of these sensors, their compact form factors together with the high detection sensitivities and spatial resolution that can be achieved, collectively make these devices interesting as candidates for label-free array-based bioanalytical detection.

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VL - 90

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 20

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ER -

Spatially resolved biosensing with a molded plasmonic crystal

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