Assembly and interaction of Au/C core-shell nanoparticles

The formation of Au/C core-shell structures from C-supported Au nanoparticles, and their thermally and electron beam induced interactions are studied by real-time TEM. At temperatures below 400 °C no C-shell is assembled, and closely spaced Au nanoparticles interact by coalescence. At high temperatures (400-800 °C) the Au particles are transformed into Au/C core-shell structures via encapsulation into curved, fullerene-like C shells. The shells initially passivate the Au cores and inhibit their coalescence. But under electron irradiation, the Au cores can break free from their shells, and hence can coalesce. Surprisingly, at this stage the assembled C-sheets may actually enhance the coalescence process by driving the directed motion of Au/C particles and causing the efficient contraction of widely spaced particle ensembles.