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      Nonradiative energy transfer in assembly of nanostructures

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      Author(s)
      Hernández‐Martínez, Pedro Ludwig
      Govorov, Alexander
      Demir, Hilmi Volkan
      Date
      2017
      Publisher
      Springer Verlag
      Pages
      27 - 38
      Language
      English
      Type
      Book Chapter
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      Book Title
      Understanding and modeling förster-type resonance energy transfer (FRET)
      Series
      SpringerBriefs in Applied Sciences and Technology
      Abstract
      This chapter is reprinted (adapted) with permission from Ref. [1]. Copyright 2014 American Chemical Society. Here, we present the theoretical framework of generalized Förster-type nonradiative energy transfer (FRET) between one-dimensional (1D), two-dimensional (2D), and three-dimensional (3D) assemblies of nanostructures consisting of mixed dimensions in confinement, namely, nanoparticles (NPs) and nanowires (NWs). Also, the modification of FRET mechanism with respect to the nanostructure serving as the donor versus the acceptor is discussed, focusing on the rate’s distance dependency. Here, the combinations of X → 1D assembly of NPs, X → 2D assembly of NPs, X → 3D assembly of NPs, X → 1D assembly of NWs, and X → 2D assembly of NWs (where X is an NP, an NW, or a quantum well (QW) with the donor → acceptor (D → A) denoting the energy transfer directed from the donor to the acceptor) are specifically considered because they are important for practical applications. Furthermore, here we give a complete set of analytical expressions in the long distance approximation, for FRET in all of the cases mentioned above and derive generic expressions for the dimensionality involved to present a complete picture and unified understanding of FRET for nanostructure assemblies.
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      http://hdl.handle.net/11693/37765
      Published Version (Please cite this version)
      https://doi.org/10.1007/978-981-10-1873-2_3
      Collections
      • Department of Electrical and Electronics Engineering 3596
      • Department of Physics 2334
      • Institute of Materials Science and Nanotechnology (UNAM) 1827
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