Design and Implementation of Vertically Emitting Distributed Feedback Lasers for Biological Sensing

Meng Lu; Steven S. Choi; Chun Ge; Clark J. Wagner; J. Gary Eden; Brian T. Cunningham

doi:10.1002/9780470979129.ch2

Design and Implementation of Vertically Emitting Distributed Feedback Lasers for Biological Sensing

Meng Lu, Steven S. Choi, Chun Ge, Clark J. Wagner, J. Gary Eden, Brian T. Cunningham

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Original language	English (US)
Title of host publication	Label-Free Technologies for Drug Discovery
Publisher	John Wiley and Sons
Pages	27-40
Number of pages	14
ISBN (Print)	9780470746837
DOIs	https://doi.org/10.1002/9780470979129.ch2
State	Published - Feb 24 2011

Keywords

Biotin binding on SA immobilized sensor surface - DFB laser sensor kinetically detecting a shift
Design and implementation - vertically emitting distributed feedback lasers, for biological sensing
Design of a sensitive DFB laser biosensor - understanding mechanisms, structural parameters of device dictating performance
DFB laser biosensor design - optical resonator-based, label-free biosensors, detecting biomolecular adsorption on sensor surface
DFB laser use - for label-free optical bioassay detection
Label-free optical biosensors, small drug compound detection - DNA, proteins, viral particles, bacteria and cells through intrinsic dielectric permittivity
Replica molding of sol-gel silica film - rigid glass substrate, with daughter PDMS grating serving as molding tool
Semiconductor DFB lasers - interest in wavelength division multiplexing (WDM)
Sensor performance evaluation - sensitivity of wavelength emission to surface adsorbed mass density
Vertically emitting DFB laser - and bulk material sensing

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology(all)
Pharmacology, Toxicology and Pharmaceutics(all)

Access to Document

10.1002/9780470979129.ch2

Cite this

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title = "Design and Implementation of Vertically Emitting Distributed Feedback Lasers for Biological Sensing",

keywords = "Biotin binding on SA immobilized sensor surface - DFB laser sensor kinetically detecting a shift, Design and implementation - vertically emitting distributed feedback lasers, for biological sensing, Design of a sensitive DFB laser biosensor - understanding mechanisms, structural parameters of device dictating performance, DFB laser biosensor design - optical resonator-based, label-free biosensors, detecting biomolecular adsorption on sensor surface, DFB laser use - for label-free optical bioassay detection, Label-free optical biosensors, small drug compound detection - DNA, proteins, viral particles, bacteria and cells through intrinsic dielectric permittivity, Replica molding of sol-gel silica film - rigid glass substrate, with daughter PDMS grating serving as molding tool, Semiconductor DFB lasers - interest in wavelength division multiplexing (WDM), Sensor performance evaluation - sensitivity of wavelength emission to surface adsorbed mass density, Vertically emitting DFB laser - and bulk material sensing",

author = "Meng Lu and Choi, {Steven S.} and Chun Ge and Wagner, {Clark J.} and Eden, {J. Gary} and Cunningham, {Brian T.}",

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doi = "10.1002/9780470979129.ch2",

language = "English (US)",

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T1 - Design and Implementation of Vertically Emitting Distributed Feedback Lasers for Biological Sensing

AU - Lu, Meng

AU - Choi, Steven S.

AU - Ge, Chun

AU - Wagner, Clark J.

AU - Eden, J. Gary

AU - Cunningham, Brian T.

PY - 2011/2/24

Y1 - 2011/2/24

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KW - Design and implementation - vertically emitting distributed feedback lasers, for biological sensing

KW - Design of a sensitive DFB laser biosensor - understanding mechanisms, structural parameters of device dictating performance

KW - DFB laser biosensor design - optical resonator-based, label-free biosensors, detecting biomolecular adsorption on sensor surface

KW - DFB laser use - for label-free optical bioassay detection

KW - Label-free optical biosensors, small drug compound detection - DNA, proteins, viral particles, bacteria and cells through intrinsic dielectric permittivity

KW - Replica molding of sol-gel silica film - rigid glass substrate, with daughter PDMS grating serving as molding tool

KW - Semiconductor DFB lasers - interest in wavelength division multiplexing (WDM)

KW - Sensor performance evaluation - sensitivity of wavelength emission to surface adsorbed mass density

KW - Vertically emitting DFB laser - and bulk material sensing

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