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Fluorescence in Bio-inspired Nanotechnology [electronic resource] : First as Probe, Then as Function / by Jonas Hannestad.

By: Contributor(s): Material type: TextTextSeries: Springer Theses, Recognizing Outstanding Ph.D. ResearchPublisher: Heidelberg : Springer International Publishing : Imprint: Springer, 2013Description: XII, 119 p. online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9783319010687
Subject(s): Additional physical formats: Printed edition:: No titleDDC classification:
  • 541.2 23
LOC classification:
  • QD478
Online resources:
Contents:
Introduction -- Being Bioinspired -- DNA: molecular recognition and information storage -- Photophysics -- Nanoscale photonic devices -- Lipids: soft, dynamic containers -- Methodology -- Summary of five papers -- Concluding remarks.
In: Springer eBooksSummary: In his thesis Fluorescence in Bio-inspired Nanotechnology, Jonas Hannestad describes the evolving field of DNA nanotechnology in a lucid and easily accessible way. A central theme in the thesis is how biological structures and mechanisms constitute a basis for the design of novel technologies. Hannestad discusses how self-assembled, nanometer-scale DNA constructs can be functionalized using fluorescent labeling. In particular, he highlights how applications are based on fluorescence resonance energy transfer (FRET). Another important contribution is the development of a lipid monolayer platform for the step-by-step assembly of DNA nanoconstructs. The work in the thesis is based on five peer-reviewed papers published in high-profile journals, all of which involve major contributions from the author.
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Introduction -- Being Bioinspired -- DNA: molecular recognition and information storage -- Photophysics -- Nanoscale photonic devices -- Lipids: soft, dynamic containers -- Methodology -- Summary of five papers -- Concluding remarks.

In his thesis Fluorescence in Bio-inspired Nanotechnology, Jonas Hannestad describes the evolving field of DNA nanotechnology in a lucid and easily accessible way. A central theme in the thesis is how biological structures and mechanisms constitute a basis for the design of novel technologies. Hannestad discusses how self-assembled, nanometer-scale DNA constructs can be functionalized using fluorescent labeling. In particular, he highlights how applications are based on fluorescence resonance energy transfer (FRET). Another important contribution is the development of a lipid monolayer platform for the step-by-step assembly of DNA nanoconstructs. The work in the thesis is based on five peer-reviewed papers published in high-profile journals, all of which involve major contributions from the author.

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