Electroless-Deposited Platinum Antennas for Wireless Surface Acoustic Wave Sensors

Author:

Brachmann Erik,Seifert Marietta,Neumann Niels,Alshwawreh Nidal,Uhlemann Margitta,Menzel Siegfried,Acker Jörg,Herold Steven,Hoffmann Volker,Gemming ThomasORCID

Abstract

In an effort to develop a cost-efficient technology for wireless high-temperature surface acoustic wave sensors, this study presents an evaluation of a combined method that integrates physical vapor deposition with electroless deposition for the fabrication of platinum-based planar antennas. The proposed manufacturing process becomes attractive for narrow, thick, and sparse metallizations for antennas in the MHz to GHz frequency range. In detail, narrow platinum-based lines of a width down to 40 μm were electroless-deposited on γ-Al 2O 3 substrates using different seed layers. At first, the electrolyte chemistry was optimized to obtain the highest deposition rate. Films with various thickness were prepared and the electrical resistivity, microstructure, and chemical composition in the as-prepared state and after annealing at temperatures up to 1100 ∘C were evaluated. Using these material parameters, the antenna was simulated with an electromagnetic full-wave simulation tool and then fabricated. The electrical parameters, including the S-parameters of the antenna, were measured. The agreement between the simulated and the realized antenna is then discussed.

Publisher

MDPI AG

Subject

General Materials Science

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