Synchrotron photoemission investigation: Fluorine on silicon surfaces

15 July 1984

journal article
Published by AIP Publishing in Applied Physics Letters

Vol. 45 (2) , 174-176
https://doi.org/10.1063/1.95159

Abstract

High resolution core level photoemission spectroscopy has been used to obtain the first direct identification of the chemical species remaining on silicon surfaces after exposure to fluorine. Both Si(111) 2×1 and Si(111) 7×7 were exposed to fluorine via the dissociative chemisorption of XeF2. For fluorine coverages in the monolayer regime, SiF1, SiF2, and SiF3 were all present although their relative abundance varied significantly between the two surfaces. No evidence for the existence of unreacted interestitial fluorine was found. These results suggest the need for modification of current models describing plasma and reactive ion etching of silicon.

Keywords

This publication has 11 references indexed in Scilit:

Self-consistent energy bands in aluminum and electronic surface states and resonances on the (001) surface
Physical Review B, 1983
Photoelectron spectra of fluorinated amorphous silicon ( $a$ -Si: F)
Physical Review B, 1981
Chemical sputtering of fluorinated silicon
Physical Review B, 1981
Studies of chemiluminescence accompanying fluorine atom etching of silicon
Journal of Applied Physics, 1980
Geometry-Dependent $Si (2 p)$ Surface Core-Level Excitations for Si(111) and Si(100) Surfaces
Physical Review Letters, 1980
Optical emission spectroscopy of reactive plasmas: A method for correlating emission intensities to reactive particle density
Journal of Applied Physics, 1980
An ellipsoidal mirror display analyzer system for electron energy and angular measurements
Nuclear Instruments and Methods, 1980
A table of absolute core-electron binding-energies for gaseous atoms and molecules
Journal of Electron Spectroscopy and Related Phenomena, 1980
Electron-spectroscopic studies of the early stages of the oxidation of Si
Physical Review B, 1979
Plasma etching of Si and SiO2—The effect of oxygen additions to CF4 plasmas
Journal of Applied Physics, 1978