Comparison of spin and charge transport in organic semiconductor P3HT

We have investigated spin and charge transport processes in regio-regular poly(3-hexylthiophene) (P3HT) in order to compare spin-transport and charge-transport in organic semiconductors. For the spin transport we measured the spin diffusion length, $\lambda_{s}$ via the inverse spin Hall effect (ISHE) in NiFe/P3HT/Pt trilayer devices, whereby a pure spin-current is generated in the polymer by spin-pumping from the ferromagnetic layer (NiFe), then diffuses to the Pt layer where it is converted into an electrical signal due to the strong spin-orbit coupling of Pt. For the charge transport we measured the carrier mobility of photogenerated charges via the time of flight technique. We also determined the (longitudinal) spin relaxation time, T$_{2}$ by pulsed EPR method, which allows us to calculate the spin diffusion coefficient D$_{s}$ from $\lambda_{s}$. Finally we relate D$_{s}$ to the charge diffusion coefficient D$_{c}$, which is determined from the charge mobility measurements.