Abstract
Developing advanced thin film materials is the key challenge in high-temperature applications of surface acoustic wave sensor devices. One hundred nanometer thick (Mo-La 2 O 3 ) multilayer systems were fabricated at room temperature on thermally oxidized (100) Si substrates (SiO 2 /Si) to study the effect of lanthanum oxide on the electrical resistivity of molybdenum thin films and their high-temperature stability. The multilayer systems were deposited by the magnetron sputter deposition of extremely thin (≤1 nm) La interlayers in between adjacent Mo layers. After deposition of each La layer the process was interrupted for 25 to 60 min to oxidize the La using the residual oxygen in the high vacuum of the deposition chamber. The samples were annealed at 800 ∘ C in high vacuum for up to 120 h. In case of a 1 nm thick La interlayer in-between the Mo a continuous layer of La 2 O 3 is formed. For thinner La layers an interlayer between adjacent Mo layers is observed consisting of a (La 2 O 3 -Mo) mixed structure of molybdenum and nm-sized lanthanum oxide particles. Measurements show that the (Mo-La 2 O 3 ) multilayer systems on SiO 2 /Si substrates are stable at least up to 800 ∘ C for 120 h in high vacuum conditions.
Funder
Deutsche Forschungsgemeinschaft
DAAD India IIT Master Sandwich Programme
Subject
General Materials Science
Cited by
11 articles.
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