Competition between continuous etching and surface passivation for Cl2 chemisorption onto GaAs(100) c(8×2), GaAs(100) c(2×8), and GaAs(110) (1×1) surfaces

Abstract

The effects of surface temperature (T_s) and surface structure upon the passivation and etching of GaAs(100) and GaAs(110) surfaces by Cl₂ have been studied. The Ga‐rich GaAs(100) Ga‐c(8×2) and the stoichiometric GaAs(110) (1×1) surfaces form stable ordered monochloride overlayers when exposed to Cl₂ at 300 K. The ordered overlayers formed are AsCl on the GaAs(110) (1×1) surface and GaCl on the GaAs(100) Ga‐c(8×2) surface. In contrast, the As‐rich GaAs(100) As‐c(2×8) surface undergoes continuous uptake of Cl₂ under equivalent conditions. All three surfaces exhibit continuous uptake of Cl₂ at surface temperatures above 600 K, where continuous etching is known to occur. In this paper, the continuous uptake of Cl₂ is shown to result from etching of the surface. In addition it is shown that the Ga‐rich GaAs(100) Ga‐c(8×2) and the stoichiometric GaAs(110) (1×1) surfaces can be induced to undergo continuous etching at surface temperatures of 300 K, if they are first exposed to Cl₂ with surface temperatures above 600 K. This slight pre‐etch disrupts the surface order and exposes multiple dangling bonds. The disrupted surface does not allow for a monochloride passivation layer to form; instead, volatile trichloride products form, leading to continuous etching. Therefore, the dissociative adsorption of molecular chlorine on GaAs(100) and GaAs(110) surfaces involves a competition between etching and passivation in which monochloride passivation is favored only on the well‐ordered surfaces.