Spin transport in organic semiconductor single crystals

ORAL

Abstract

Organic semiconductors have been attracting much attention as potential spin transport media due to their weak spin-orbit and hyperfine interactions that promise long spin lifetimes. However, to date most studies have focused on amorphous, or polycrystalline thin-film based organic semiconductors. In addition, short transport distances equal to or less than a couple of hundred nanometers have been measured despite the prediction of long spin transport distance. We have investigated spin injection and transport in high purity single-crystal organic semiconductors, especially rubrene(5,6,11,12-tetraphenylnaphthacene). We will present and discuss our experimental results obtained in both vertical and lateral transport geometries. Great care is needed to understand and avoid possible spurious effects in these studies.

Authors

  • H.-Jae Jang

    • Semiconductor Electornics Div. NIST \& Dept. of Physics, Wake Forest Univ.

  • Oleg Kirillov

    • Semiconductor Electornics Div. NIST

  • Kurt Pernstich

    • Semiconductor Electornics Div. NIST

  • William Rippard

    • Electromagnetics Div. NIST

  • Katelyn P. Goetz

    • Dept. of Physics, Wake Forest Univ.

  • Oana Jurchescu

    • Dept. of Physics, Wake Forest Univ.
    • Wake Forest University

  • David Gundlach

    • Semiconductor Electornics Div. NIST

  • Mariona Coll Bau

    • Semiconductor Electornics Div. NIST

  • Brad Conrad

    • Semiconductor Electornics Div. NIST
    • Appalachian State University

  • C.A. Hacker

    • Semiconductor Electornics Div. NIST
    • National Institute of Standards \& Technology

  • C.A. Richter

    • National Institute of Standards and Technology (NIST), Gaithersburg, MD 20899
    • Semiconductor Electornics Div. NIST
    • PML, NIST, Gaithersburg, MD, 20899
    • Semiconductor Electronics Division, NIST
    • National Institute of Standards \& Technology