Abstract
Temperature dependence of resistance is studied for polyimide (PI) samples implanted by Co + ions with fluences of 2.5 × 10 16–1.25 × 10 17 cm −2 at ion current densities of 4, 8 and 12 μA cm −2. It is found that electron transport in the implanted samples originates from radiation-induced changes of the PI and Co nanoparticle formation and it depends dramatically on the ion current density. A variable range hopping mechanism dominates for all fluences at a low ion current density of 4 μA cm −2 while a transition to a semimetallic type of conductance is observed with an increase in ion current density due to agglomeration of the Co nanoparticles forming a percolation way for the charge carriers. It is shown that both quantum effects of weak localisation and electron–electron interaction give a significant contribution to the transport mechanism.
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