CAMPION, ALAN

Alan Campion

Professor
Department of Chemistry

Dow Chemical Company Endowed Professor in Chemistry | Distinguished Teaching Professor


campion@mail.utexas.edu

Phone: 512-415-8610

Office Location
WEL 3.132C

Postal Address
The University of Texas at Austin
Department of Chemistry, College of Natural Sciences
105 East 24th Street
Stop A5300
Austin, TX 78712

B.A., New College, Florida (1972)
C.Phil., UCLA (1976)
Ph.D., UCLA (1976)

 

Surface Physics And Chemistry

I am interested in a wide variety of physical and chemical phenomena that occur at solid surfaces or at interfaces. These processes are intellectually interesting because of dimensionality, challenging because of the small numbers of molecules involved and relevant to a number of important technologies such as heterogeneous catalysis and microelectronics. We approach these problems using a sophisticated array of modern surface spectroscopies, including surface Raman spectroscopy, which was pioneered in our laboratory. Our current research can be divided into two general areas: the surface chemistry of the polymer/metal interface and mechanistic studies of chemical vapor deposition and atomic layer epitaxy.
Polymer/metal interfaces
The polymer work relies upon the ability of surface Raman spectroscopy to probe surfaces both in ultrahigh vacuum, and under "real-world" conditions. We have elucidated the surface chemistry of monomers for polyimide, a technologically important polymer, and are extending these studies to probe general features of the polymer/metal interface.
Atomic layer epitaxy
We are studying the physical and chemical mechanisms that underlie chemical vapor deposition and atomic layer epitaxy, important processes for the deposition of thin films of electronic materials. In particular, we have focused upon how remote plasmas can assist the low temperature growth of epitaxial layers and how novel precursor molecules can produce the self-terminating layers necessary for atomic layer epitaxy . The long range goal of these studies is to provide a sound scientific basis for the development of future semiconductor manufacturing processes.

Representative Publications

"untitled" Surface Science Letters 304 (1994): L407-L412.

"untitled" Surface Science 259 (1991): 207-214.

  • Camille and Henry Dreyfus Teacher Scholar, 1999
  • Jean Holloway Award for Excellence in Teaching, 1999
  • Coblentz Memorial Prize in Molecular Spectroscopy, 1999
  • Alfred P. Sloan Fellow, 1999