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Surface Plasmon Resonance Sensors electronic resource A Materials Guide to Design and Optimization / by Leiva Casemiro Oliveira, Antonio Marcus Nogueira Lima, Carsten Thirstrup, Helmut Franz Neff.

By: Oliveira, Leiva Casemiro [author.]Contributor(s): Lima, Antonio Marcus Nogueira [author.] | Thirstrup, Carsten [author.] | Neff, Helmut Franz [author.] | SpringerLink (Online service)Material type: TextTextSeries: SpringerBriefs in PhysicsPublication details: Cham : Springer International Publishing : Imprint: Springer, 2015Description: XIII, 183 p. 184 illus. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783319149264Subject(s): physics | Surfaces (Physics) | Interfaces (Physical sciences) | Thin films | Optics | Optoelectronics | Plasmons (Physics) | Optical materials | Electronic materials | Materials -- Surfaces | Physics | Surface and Interface Science, Thin Films | Optical and Electronic Materials | Optics, Optoelectronics, Plasmonics and Optical Devices | Surfaces and Interfaces, Thin FilmsDDC classification: 530.417 LOC classification: QC176.8.S8QC611.6.S9QC176.84.S93Online resources: Click here to access online
Contents:
Introduction and background information -- Physical features of the surface plasmon polariton -- Physical features of surface plasmon resonance sensors -- Design features of surface plasmon resonance sensors -- Data extraction algorithms -- SPF-sensor properties of metal films and particles: free electron type metals -- Classical noble metals -- Noble transition metals of the platinum group -- Common transition metals -- Other common metals -- SPR active metal-type compounds -- Artificial metal-insulator multi-layer structures -- Conclusions.
In: Springer eBooksSummary: This book addresses the important physical phenomenon of Surface Plasmon Resonance or Surface Plasmon Polaritons in thin metal films, a phenomenon which is exploited in the design of a large variety of physico-chemical optical sensors. In this treatment, crucial materials aspects for design and optimization of SPR sensors are investigated and outlined in detail. The text covers the selection of nanometer thin metal films, ranging from free-electron to the platinum type conductors, along with their combination with a large variety of dielectric substrate materials, and associated individual layer and opto-geometric arrangements. Furthermore, as-yet hardly explored SPR features of selected metal–metal and metal–dielectric super lattices are included in this report. An in-depth multilayer Fresnel evaluation provides the mathematical tool for this optical analysis, which otherwise relies solely on experimentally determined electro-optical materials parameters.
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Introduction and background information -- Physical features of the surface plasmon polariton -- Physical features of surface plasmon resonance sensors -- Design features of surface plasmon resonance sensors -- Data extraction algorithms -- SPF-sensor properties of metal films and particles: free electron type metals -- Classical noble metals -- Noble transition metals of the platinum group -- Common transition metals -- Other common metals -- SPR active metal-type compounds -- Artificial metal-insulator multi-layer structures -- Conclusions.

This book addresses the important physical phenomenon of Surface Plasmon Resonance or Surface Plasmon Polaritons in thin metal films, a phenomenon which is exploited in the design of a large variety of physico-chemical optical sensors. In this treatment, crucial materials aspects for design and optimization of SPR sensors are investigated and outlined in detail. The text covers the selection of nanometer thin metal films, ranging from free-electron to the platinum type conductors, along with their combination with a large variety of dielectric substrate materials, and associated individual layer and opto-geometric arrangements. Furthermore, as-yet hardly explored SPR features of selected metal–metal and metal–dielectric super lattices are included in this report. An in-depth multilayer Fresnel evaluation provides the mathematical tool for this optical analysis, which otherwise relies solely on experimentally determined electro-optical materials parameters.

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