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Scanning Tunneling Microscopy of Ethylated Si(111) Surfaces Prepared by a Chlorination/Alkylation Process

Hongbin Yu, Lauren J. Webb, Santiago D. Solares, Peigen Cao, William A. Goddard III, James R. Heath, Nathan S. Lewis

2006J. Phys. Chem. B, 110(47), 23898-23903

Abstract

Scanning tunneling microscopy (STM) and computational modeling have been used to study the structure of ethyl-terminated Si(111) surfaces. The ethyl-terminated surface was prepared by treating the H-terminated Si(111) surface with PCl_5 to form a Cl-terminated Si(111) surface with subsequent exposure to C_2H_5MgCl in tetrahydrofuran to produce an alkylated Si(111) surface. The STM data at 77 K revealed local, close-packed, and relatively ordered regions with a nearest-neighbor spacing of 0.38 nm as well as disordered regions. The average spot density corresponded to ≈85% of the density of Si atop sites on an unreconstructed Si(111) surface. Molecular dynamics simulations of a Si(111) surface randomly populated with ethyl groups to a total coverage of ≈80% confirmed that the ethyl-terminated Si(111) surface, in theory, can assume reasonable packing arrangements to accommodate such a high surface coverage, which could be produced by an exoergic surface functionalization route such as the two-step chlorination/alkylation process. Hence, it is possible to consistently interpret the STM data within a model suggested by recent X-ray photoelectron spectroscopic data and infrared absorption data, which indicate that the two-step halogenation/alkylation method can provide a relatively high coverage of ethyl groups on Si(111) surfaces.

Cite this publication
Yu, H., Webb, L. J., Solares, S. D., Cao, P., III, W. A. G., Heath, J. R., & Lewis, N. S. (2006). Scanning Tunneling Microscopy of Ethylated Si(111) Surfaces Prepared by a Chlorination/Alkylation Process. *J. Phys. Chem. B*, *110*(47), 23898-23903. https://doi.org/10.1021/jp063655g