• DocumentCode
    937117
  • Title

    Organic nanoaggregates: a window to submicron optics

  • Author

    Balzer, Frank ; Bordo, Vladimir G. ; Neuendorf, Rolf ; Al-Shamery, Katharina ; Simonsen, Adam Cohen ; Rubahn, Horst-Günter

  • Author_Institution
    Inst. fur Phys./ASP, Humboldt-Univ., Berlin, Germany
  • Volume
    3
  • Issue
    1
  • fYear
    2004
  • fDate
    3/1/2004 12:00:00 AM
  • Firstpage
    67
  • Lastpage
    72
  • Abstract
    Nanoscaled photonic devices rely on a thorough understanding of the influence of microscopic morphological changes on the optoelectronic properties. Here, we investigate as a model system, organic nanofibers and microrings from para-phenylene molecules, which provide high flexibility in terms of controlled growth manipulation, while, on the other hand, showing self-assembled multiplication of individual entities. Examples on selective spectroscopy, scanning fluorescence optical microscopy, and waveguiding of individual nanofibers, as well as arrays of nanofibers are given. Both the linear optical properties, as well as the waveguiding efficiency are strongly related to the morphology of the nanoaggregates. Organic nanoaggregates, thus, are an interesting benchmark system for the investigation of the applicability of a variety of optical methods in the nanodomain.
  • Keywords
    aggregates (materials); crystal microstructure; fibres; fluorescence; nanocomposites; optical fibre theory; optical microscopy; optoelectronic devices; organic compounds; benchmark system; growth manipulation; linear optical properties; microrings; microscopic morphology; nanodomain; nanofiber arrays; nanoscaled photonic devices; optical methods; optoelectronic properties; organic nanoaggregates; organic nanofibers; para-phenylene molecules; scanning fluorescence optical microscopy; self-assembled multiplication; submicron optics; wave ding; waveguiding efficiency; Atom optics; Atomic force microscopy; Biomedical optical imaging; Fiber nonlinear optics; Fluorescence; Nanoscale devices; Nonlinear optics; Optical films; Optical microscopy; Optical mixing;
  • fLanguage
    English
  • Journal_Title
    Nanotechnology, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1536-125X
  • Type

    jour

  • DOI
    10.1109/TNANO.2004.824032
  • Filename
    1278271