Influence of ion beam current on the structural, optical, and mechanical properties of TiO2 coatings: ion beam-assisted vs conventional electron beam evaporation
Agata Obstarczyk, Urszula Wawrzaszek

TL;DR
This study compares TiO2 coatings made with ion beam-assisted and conventional methods, showing that ion beam techniques improve mechanical and optical properties.
Contribution
The study demonstrates that ion beam-assisted deposition enhances TiO2 coating properties compared to conventional methods.
Findings
IBAD TiO2 coatings showed smaller crystallite sizes and denser structures compared to EBE coatings.
IBAD coatings retained higher optical transparency after annealing compared to EBE coatings.
IBAD significantly improved abrasion resistance of TiO2 coatings.
Abstract
In this paper, comparative studies of selected properties of titanium dioxide (TiO2) coatings deposited using electron beam evaporation (EBE) and ion beam-assisted deposition (IBAD) are presented. Post-process annealing at 800 °C was also conducted to examine its impact on the properties of the prepared coatings. After annealing at 800 °C, a transition from amorphous to the anatase phase occurred for all coatings. In particular, an increase in ion beam current led to a reduction in crystallite size by approximately 30% compared to coatings prepared by conventional EBE process. The average anatase crystallite size for annealed films was in the range of 30.8 to 43.5 nm. A detailed SEM analysis of surface morphology and cross sections revealed that the TiO2 films prepared by IBAD had smaller, rounded grains and were denser compared to those deposited by EBE. Optical properties showed high…
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Taxonomy
TopicsIon-surface interactions and analysis · Metal and Thin Film Mechanics · Diamond and Carbon-based Materials Research
