Transmembrane electron transport mediated by photoexcited fullerenes

Experiments were carried out to confirm the existence of nanoampere mm-2 currents photoinduced in bilayer lipid membranes (~40 8, width) containing C6, or C,,, fullerenes and to explore possible mechanisms of electron transport in these model light harvesting and conversion systems. Thermodynamic considerations indicate that electron transfer occurs via reduction of fullerene triplets. This is supported by triplet quenching experiments. No photocurrent change was observed when an ionic gradient was imposed on the membrane or when its ionic permeability was modified. This is consistent with an electron-hopping mechanism. The following parameters were varied: membrane thickness, fullerene concentration, applied membrane potential, light intensity and intermittency. The results indicate that electron transport is mediated by fullerene aggregates that span the membrane and that light excitation can either enhance or diminish fullercne aggregation and electron transfer, according to its intensity.