Atomic Hydrogen Driven Halogen Extraction from Si(100) -- Eley-Rideal Surface Kinetics
Abstract
The interaction of atomic hydrogen with halogen-terminated Si(100) surfaces was studied by Auger electron spectroscopy (AES) and temperature programmed desorption (TPD) mass spectroscopy. Efficient removal of surface halogen has been observed when the halogen-terminated S1(100) surface was exposed to atomic hydrogen at a substrate temperature, 630 K. The reaction rate constants for halogen extraction on the S1(100) surface follow the trend kI greater than kBr greater than kCl. In addition, the halogen extraction kinetics are found to be first order in both the surface coverage of halogen and in the atomic hydrogen flux. Studies of the temperature dependence of the halogen extraction rate show the activation energies for the extraction of Cl and Br are 2.1 and 1.6 kcal mol-1, respectively. The extremely low activation energy for the reaction demonstrates that the H-extraction process follows an Eley-Rideal reaction mechanism where the surface reaction is mainly driven by the high internal energy of incident atomic hydrogen instead of thermal excitation from the S1(100) solid surface.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jul 12, 1991
- Accession Number
- ADA239544
Entities
People
- C. C. Cheng
- H. Gutleben
- J. T. Yates Jr.
- S. R. Lucas
- Wolfgang J. Wolfgang J. Choyke
Organizations
- University of Pittsburgh