A New Mechanism of Stabilization of Large Decahedral Nanoparticles.

The stability of decahedral shaped nanoparticles depends upon size. Ino and Marks introduced new mechanisms for the stabilization of decahedra nanoparticles which involves the faceting and the formation of surfaces different of {111}. These mechanisms have relevance for small size nanoparticles; however, they do not explain, thoroughly, how decahedral particles can grow up to 300 nm or more. Here, we report new mechanisms that help stabilize very large decahedral. With the use of aberration corrected scanning transmission electron microscopy, we observed the formation of high index facets, determined to be of the {511} family, on all five sides of the particles. Surface dislocations strings are also observed. In addition, surface reconstruction of the {001} surfaces can also be observed in two different orientation: with hexagonal strings along the [110] and along the [410] directions.