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Humboldt-Universität zu Berlin - Mathematisch-Naturwissen­schaft­liche Fakultät - SFB 951 - HIOS

Testing the new look of project pages considering projects with quiet long project titles due to a high number of such projects with long names



  • in-depth understanding and control of the aggregation of conjugated organic molecules on inorganic semiconductor surfaces (employing the atomic, electrostatic, or morphological structure of these surfaces)
  • growth of the inorganic semiconductor on top of the organic material (inorganic/organic multi-layer stacks with electronic and photonic functionality beyond a single interface)
  • fabrication of functional HIOS with suitable interaction geometries (optimized for charge transfer/separation, energy transfer, exciton hybridization, microcavities)



Methods & Instruments:

The hybrid structures are grown in an all-UHV regime using
  • a tandem molecular-beam epitaxy apparatus
  • an organic molecular beam deposition system
  • analytical tools for in-situ characterization include RHEED, LEED, AFM, and STM, as well as setups for optical and electrical measurements



Prof. Dr. Sabine Klapp (Principal Investigator)


Phone: +49 (30) 314 - 23763

Contact: klapp(at)physik.tu-berlin.de

Technische Universität Berlin, Department of Theoretical Physics


Thomas Heinemann



Phone: +49 (30) 314 - 28852

Contact: thomas.heinemann(at)mailbox.tu-berlin.de

Technische Universität Berlin, Department of Theoretical Physics

Nicola Kleppmann




Phone: +49 (30) 314 - 24474

Contact: nicola.kleppmann(at)tu-berlin.de

Technische Universität Berlin, Department of Theoretical Physics




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