Surface desensitization of polarimetric waveguide interferometers

Colin Worth; Bennett B. Goldberg; Michael Ruane; M. Selim Ünlü

doi:10.1109/2944.983287

Surface desensitization of polarimetric waveguide interferometers

Colin Worth^*, Bennett B. Goldberg, Michael Ruane, M. Selim Ünlü

^*Corresponding author for this work

Physics and Astronomy

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

8 Scopus citations

Abstract

Nonspecific surface binding of small protein molecules presents a major obstacle to surface biosensing techniques attempting to detect very low concentrations (≤ 1 pg/mm ²) of large biological objects such as cells and bacteria. A new method for selective desensitization of a polarimetric waveguide interferometer eliminates the background noise from nonspecific surface binding. We demonstrate the ability to tune the phase sensitivity of a waveguide interferometer as a function of the distance of the biological or chemical analyte from the waveguide surface. This makes possible a sensor that has zero sensitivity at a particular distance where nonspecific surface binding occurs without significantly reducing the sensitivity to target larger biological species.

Original language	English (US)
Pages (from-to)	874-877
Number of pages	4
Journal	IEEE Journal on Selected Topics in Quantum Electronics
Volume	7
Issue number	6
DOIs	https://doi.org/10.1109/2944.983287
State	Published - Nov 2001

Keywords

Evanescent wave biosensing
Surface sensing
Waveguide interferometry

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Electrical and Electronic Engineering

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10.1109/2944.983287

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title = "Surface desensitization of polarimetric waveguide interferometers",

abstract = "Nonspecific surface binding of small protein molecules presents a major obstacle to surface biosensing techniques attempting to detect very low concentrations (≤ 1 pg/mm 2) of large biological objects such as cells and bacteria. A new method for selective desensitization of a polarimetric waveguide interferometer eliminates the background noise from nonspecific surface binding. We demonstrate the ability to tune the phase sensitivity of a waveguide interferometer as a function of the distance of the biological or chemical analyte from the waveguide surface. This makes possible a sensor that has zero sensitivity at a particular distance where nonspecific surface binding occurs without significantly reducing the sensitivity to target larger biological species.",

keywords = "Evanescent wave biosensing, Surface sensing, Waveguide interferometry",

author = "Colin Worth and Goldberg, \{Bennett B.\} and Michael Ruane and {\"U}nl{\"u}, \{M. Selim\}",

year = "2001",

month = nov,

doi = "10.1109/2944.983287",

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volume = "7",

pages = "874--877",

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T1 - Surface desensitization of polarimetric waveguide interferometers

AU - Worth, Colin

AU - Goldberg, Bennett B.

AU - Ruane, Michael

AU - Ünlü, M. Selim

PY - 2001/11

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N2 - Nonspecific surface binding of small protein molecules presents a major obstacle to surface biosensing techniques attempting to detect very low concentrations (≤ 1 pg/mm 2) of large biological objects such as cells and bacteria. A new method for selective desensitization of a polarimetric waveguide interferometer eliminates the background noise from nonspecific surface binding. We demonstrate the ability to tune the phase sensitivity of a waveguide interferometer as a function of the distance of the biological or chemical analyte from the waveguide surface. This makes possible a sensor that has zero sensitivity at a particular distance where nonspecific surface binding occurs without significantly reducing the sensitivity to target larger biological species.

AB - Nonspecific surface binding of small protein molecules presents a major obstacle to surface biosensing techniques attempting to detect very low concentrations (≤ 1 pg/mm 2) of large biological objects such as cells and bacteria. A new method for selective desensitization of a polarimetric waveguide interferometer eliminates the background noise from nonspecific surface binding. We demonstrate the ability to tune the phase sensitivity of a waveguide interferometer as a function of the distance of the biological or chemical analyte from the waveguide surface. This makes possible a sensor that has zero sensitivity at a particular distance where nonspecific surface binding occurs without significantly reducing the sensitivity to target larger biological species.

KW - Evanescent wave biosensing

KW - Surface sensing

KW - Waveguide interferometry

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JO - IEEE Journal on Selected Topics in Quantum Electronics

JF - IEEE Journal on Selected Topics in Quantum Electronics

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Surface desensitization of polarimetric waveguide interferometers

Abstract

Keywords

ASJC Scopus subject areas

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