Also of interest

Soft Matter

Physics, chemistry and biology of Soft Matter

Paper

J. Mater. Chem., 2007, 17, 1995 - 2001, DOI: 10.1039/b617541d

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Magnetoresistance in -conjugated organic sandwich devices with varying hyperfine and spin–orbit coupling strengths, and varying dopant concentrations

Tho Duc Nguyen, Yugang Sheng, James Rybicki, Govindarajan Veeraraghavan and Markus Wohlgenannt

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We study a recently discovered organic magnetoresistive (OMAR) effect whose underlying mechanism is currently not known with certainty. We examine the hypothesis that OMAR is caused by spin-dynamics by varying the strength of the hyperfine and spin–orbit coupling in the organic semiconductor material. We show that unlike most other materials, C₆₀ devices do not exhibit the OMAR effect. Therefore hydrogen atoms and the resulting strong nuclear hyperfine coupling is a necessary prerequisite for the observation of OMAR. We investigate the dependence of OMAR on the strength of the spin-coupling introduced by heavy atoms in two widely used organic semiconductors, and find the characteristic magnetic field scale shifts to much larger fields. We also study OMAR sandwich devices made from the conducting polymer PEDOT. We show that in PEDOT the observed effect is caused by interface resistance, distinct from the case of intrinsic devices where OMAR is related to the bulk resistance of the (undoped) organic semiconductor.

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