Preparation of 24 Ternary
Thin Film Materials Libraries
on a Single Substrate in One Experiment for Irreversible High-Throughput
Studies
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Abstract
For different areas of combinatorial materials science,
it is desirable
to have multiple materials libraries: especially for irreversible
high-throughput studies, like, for example, corrosion resistance testing
in different media or annealing of complete materials libraries at
different temperatures. Therefore a new combinatorial sputter-deposition
process was developed which yields 24 materials libraries in one experiment
on a single substrate. It is discussed with the example of 24 Ti–Ni–Ag
materials libraries. They are divided based on the composition coverage
and orientation of composition gradient into two sets of 12 nearly
identical materials libraries. Each materials library covers at least
30–40% of the complete ternary composition range. An acid etch
test in buffered-HF solution was performed, illustrating the feasibility
of our approach for destructive materials characterization. The results
revealed that within the composition range of Ni < 30 at.%, the
films were severely etched. The composition range which shows reversible
martensitic transformations was confirmed to be outside this region.
The high output of the present method makes it attractive for combinatorial
studies requiring multiple materials libraries