Abstract:
The $S$- and $N$-shaped current–voltage characteristics have been studied for composite films of the conjugated polymer polyfluorene and ZnO nanoparticles deposited onto Al and In$_2$O$_3$/SnO$_2$ electrodes with and without an intermediate sublayer of the conducting polymer PEDT/PSS. The differences in the current–voltage characteristics of the systems (the $N$- and $S$-types, respectively) are interpreted using the electro-thermal switching model, which takes into account the structural and electric properties of PEDT/PSS. The switching provides both alignment of polymer molecules and tunneling of charge carriers, which leads to an increase in conductivity. The current flow in this structure causes an increase in temperature of conducting channels; when the temperature reaches certain levels, the conductivity of the channels decreases because the alignment of polymer molecules is upset, which creates an $N$-shaped form of the current–voltage characteristics.
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