Using first-principles total energy method, we have studied the structural and electronic properties of Ga- and P-terminated GaP(001)(1×2) surfaces adsorbed with one monolayer of sulfur. It was found that the sulfur atoms prefer to occupy bridge sites and the periodicity becomes (1 × 1) on both Ga- and Pterminated surfaces. The S–Ga bond was confirmed to be stronger than the S–P bond. The electronic analysis showed that the surface state within the energy gap on the Ga-terminated GaP surface was noticeably reduced by the sulfur adsorption, while such reduction does not occur on the P-terminated surface due to the S–P antibonding state. The nearly filled S dangling bonds on the Ga-terminated surface make this surface resistant to contamination.
Revised: February 10, 2009 |
Published: July 1, 2008
Citation
Li D.F., H.Y. Xiao, X.T. Zu, and F. Gao. 2008.First-principles study of sulfur passivation of GaP(001) surfaces at one-monolayer coverage.Solid State Communications 147, no. 3-4:141-145.PNNL-SA-62107.doi:10.1016/j.ssc.2008.04.039