We have studied fluorinated amorphous carbon (a-F:C) films, prepared by Hig
h Density Plasma Chemical Vapor Deposition (HDP-CVD) methods from CH4 and C
4F8, as candidates for low-k inter metal dielectric (IMD) applications. In
order to enhance the film's adhesion to the adjacent layers, an adhesion pr
omoter layer was introduced. The samples used for the current research cons
ist of a metal layer (Cu or its diffusion barriers Ta or TaN) and the a-F:C
film, with the adhesion promoter sandwiched in between. In order to learn
about the film and interfaces stability the samples were annealed at 400 an
d 500 degreesC for 30 min. Up to 400 degreesC, no metal diffusion into the
adhesion promoter was observed. After 30 min of 500 degreesC annealing, no
Cu outdiffusion was observed by XPS nor was a change in the Cu2p transition
peak's form suggesting that no serious chemical reaction has occurred at t
he interface. No major Cu diffusion was detected by RBS but SIMS measuremen
ts have showed Cu diffusion into the adhesion promoter after 500 degreesC a
nnealing, 30 min. The dielectric constant of the film is similar to 2.7 (me
asured by C-V at 1 MHz) after 400 degreesC annealing and much higher after
500 degreesC annealing. The results obtained so far show that the integrati
on of a-F:C as IMD is possible but there are some problems to be solved. (C
) 2001 Elsevier Science B.V. All rights reserved.