Ga and In adsorption on Si(112): Adsorption sites and superstructure

Abstract: The adsorption of the two group-III metals Ga and In on Si(112) has strong influence on the morphology of the intrinsically faceted Si(112) surface. Upon Ga or In adsorption, the Si(112) surface is smoothed, and quasi-1D adsorbate structures along the [110] direction are observed. These structures consist of (N ×1) building blocks of different sizes, the periodicity of which can be controlled by surface coverage and deposition temperature, as revealed by spot profile analysis low-energy electron diffraction. F… Show more

“…The literature on the cubic Si and Ge surfaces is very rich and particularly the low-index surfaces, such as the (001), the (110) and the (111) ones, are quite well understood [31][32][33]. The higher index surfaces, especially the (112) have received less consideration, mainly because it was often considered intrinsically unstable, suggesting that it decomposes into (111) and other high-index facets [34,35] at the termination of bulk-like samples. Whether the (112) sidewalls, which are clearly discernible in VLS grown Si NWs [36], are also composed by sawtooth structures including the (111) facets, or they have the nominal (112) orientation, is still not completely understood.…”

Thermodynamic driving force in the formation of hexagonal-diamond Si and Ge nanowires

“…The literature on the cubic Si and Ge surfaces is very rich and particularly the low-index surfaces, such as the (001), the (110) and the (111) ones, are quite well understood [31][32][33]. The higher index surfaces, especially the (112) have received less consideration, mainly because it was often considered intrinsically unstable, suggesting that it decomposes into (111) and other high-index facets [34,35] at the termination of bulk-like samples. Whether the (112) sidewalls, which are clearly discernible in VLS grown Si NWs [36], are also composed by sawtooth structures including the (111) facets, or they have the nominal (112) orientation, is still not completely understood.…”

Thermodynamic driving force in the formation of hexagonal-diamond Si and Ge nanowires

Synthesis of porous UiO-66-NH2-based mixed matrix membranes with high stability, flux and separation selectivity for Ga(III)

Sn-induced 1D nanostructure formed on Si(5 5 12)-2  ×  1: Faceting followed by preferential adsorption