UABDivulga - Barcelona recerca i innovació

Nanoparticles have a lot of applications in various fields due to their small size and their particular electronic properties. For their preparation the organometallic approach is well-known and gives rise to well-controlled nanoparticles with tunable size, morphology and surface state. The stabilizing agent is also a key parameter and depending of their nature and composition different types of stabilization exist. For catalytic investigations in biphasic media, various heavily fluorinated compounds were tested as protecting agents.

In this work, platinum nanoparticles were prepared through the decomposition at room temperature of the organometallic complex Pt₂(dba)₃ under dihydrogen or carbon monoxide in the presence of heavily fluorinated ligands. Different morphologies were obtained depending on the reactive gas used.

Under dihydrogen atmosphere, nanoparticulate material was obtained when ligands without functional groups were used as stabilizers. The presence of functional groups on the ligands (this is the case for the fluorinated amines) reinforces their stabilizing effect, giving rise to small and individual nanoparticles. At high ligand concentration the formation of organized particles into spherical superstructures was observed.

Under carbon monoxide atmosphere, carbon monoxide molecules coordinate at the particle surface. This reinforce the nanoparticles stabilization and the role of fluorinated amines as coordinating agents is secondary, acting as a soft organic template and giving rise to nice elongated superstructures.