Multiphase strontium molybdate thin films for plasmonic local heating applications

In the search for alternative plasmonic materials, SrMoO3 has recently been identified as possessing a number of desirable optical properties. Owing to the requirement for many plasmonic devices to operate at elevated temperatures however, it is essential to characterize the degradation of these pro...

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Veröffentlicht in:	Optical materials express 2018-07, Vol.8 (7), p.1806
Hauptverfasser:	Wells, Matthew P., Zou, Bin, Mihai, Andrei P., Bower, Ryan, Doiron, Brock, Regoutz, Anna, Fearn, Sarah, Maier, Stefan A., Alford, Neil McN, Petrov, Peter K.
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Sprache:	eng
Schlagworte:	Annealing Heating High temperature Optical properties Oxidation Spectroellipsometry Thin films
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description	In the search for alternative plasmonic materials, SrMoO3 has recently been identified as possessing a number of desirable optical properties. Owing to the requirement for many plasmonic devices to operate at elevated temperatures however, it is essential to characterize the degradation of these properties upon heating. Here, SrMoO3 thin films are annealed in air at temperatures ranging from 75 - 500° C. Characterizations by AFM, XRD, and spectroscopic ellipsometry after each anneal identify a loss of metallic behaviour after annealing at 500° C, together with the underlying mechanism. Moreover, it is shown that by annealing the films in nitrogen following deposition, an additional crystalline phase of SrMoO4 is induced at the film’s surface, which suppresses oxidation at elevated temperatures.
doi_str_mv	10.1364/OME.8.001806
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subjects	Annealing Heating High temperature Optical properties Oxidation Spectroellipsometry Thin films
title	Multiphase strontium molybdate thin films for plasmonic local heating applications
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