The impact of plasma enhancement on the deposition of carbon-containing zirconia films by metalorganic chemical vapor deposition

Research output: Contribution to journalResearch articleContributedpeer-review

Contributors

  • Philipp A. Maaß - , Ruhr University Bochum (Author)
  • Vitali Bedarev - , Ruhr University Bochum (Author)
  • Laura Chauvet - , Ruhr University Bochum (Author)
  • Marina Prenzel - , Ruhr University Bochum (Author)
  • Jean Pierre Glauber - , Ruhr University Bochum (Author)
  • Anjana Devi - , Ruhr University Bochum (Author)
  • Marc Böke - , Ruhr University Bochum (Author)
  • Achim von Keudell - , Ruhr University Bochum (Author)

Abstract

Zirconia layers are often used as thermal barriers. In recent years, depositions by chemical vapor deposition methods using a metalorganic precursor (MOCVD) have been primarily investigated. Here, we combine MOCVD with plasma activation - plasma-enhanced chemical vapor deposition (PECVD]) - of the gas phase and/or the growth surface to lower the growth temperature and to allow for a flexible coating design. PECVD causes the precursor to be transformed into a chemically active species, yielding thin films with a five times higher sticking coefficient compared to MOCVD. This leads to the onset of crystallization at lower surface temperatures. Carbon is incorporated at oxygen sites, so that the crystalline structure of zirconia is preserved, but the electrical conductivity is affected. The thermal conductivity is like that of pure zirconia.

Details

Original languageEnglish
Article numbere2300050
JournalPlasma processes and polymers
Volume20
Issue number10
Publication statusPublished - Oct 2023
Peer-reviewedYes
Externally publishedYes

Keywords

Keywords

  • MOCVD, PECVD, thermal barrier coatings, XPS, Zirconia