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Interaction of Components in Molecular Optoelectronics for the Next Generation of IT Devices

Author

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  • Heinz Langhals

    (Department of Chemistry, LMU University of Munich, Butenandtstr. 13, D-81377 Munich, Germany)

Abstract

The interaction of molecular optoelectronic components on the molecular scale were studied where the solvent shell indicating the influence of the medium was found to be surprisingly small. The transport of energy as resonant energy transfer covers distances of about 5 nm and was shown not to proceed by a simple to dipole dipole interaction with typical restrictions, but by a more complex mechanism. Furthermore, a novel-type of far-reaching interactions of electronically excited structures until macroscopic dimensions were fond and may be applied for addressing molecular structures by conventional electronics.

Suggested Citation

  • Heinz Langhals, 2017. "Interaction of Components in Molecular Optoelectronics for the Next Generation of IT Devices," Scientific Review, Academic Research Publishing Group, vol. 3(3), pages 17-28, 03-2017.
  • Handle: RePEc:arp:srarsr:2017:p:17-28
    DOI: arpgweb.com/?ic=journal&journal=10&info=aims
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    References listed on IDEAS

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    1. Igor V. Stiopkin & Champika Weeraman & Piotr A. Pieniazek & Fadel Y. Shalhout & James L. Skinner & Alexander V. Benderskii, 2011. "Hydrogen bonding at the water surface revealed by isotopic dilution spectroscopy," Nature, Nature, vol. 474(7350), pages 192-195, June.
    2. Toby S. Cubitt & David Perez-Garcia & Michael M. Wolf, 2015. "Undecidability of the spectral gap," Nature, Nature, vol. 528(7581), pages 207-211, December.
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