Abstract

This paper introduces a new methodology for the fabrication of strain-sensor elements for MEMS and NEMS applications based on the tunneling effect in nano-granular metals. The strain-sensor elements are prepared by the maskless lithography technique of focused electron-beam-induced deposition (FEBID) employing the precursor trimethylmethylcyclopentadienyl platinum [MeCpPt(Me)3]. We use a cantilever-based deflection technique to determine the sensitivity (gauge factor) of the sensor element. We find that its sensitivity depends on the electrical conductivity and can be continuously tuned, either by the thickness of the deposit or by electron-beam irradiation leading to a distinct maximum in the sensitivity. This maximum finds a theoretical rationale in recent advances in the understanding of electronic charge transport in nano-granular metals.

Highlights

  • Granular metals are artificial materials in which a conducting phase made of metallic nanoparticles is dispersed into an insulating matrix

  • The strain sensor was fabricated by focused electron-beam-induced deposition (FEBID) of the precursor trimethylmethylcyclopentadienyl platinum

  • A new type of strain sensor device based on nanogranular metals has been demonstrated

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Summary

A Tunable Strain Sensor Using Nanogranular Metals

Schwalb 1,2,*, Christina Grimm 1, Markus Baranowski 1, Roland Sachser 1, Fabrizio Porrati 1, Heiko Reith 3, Pintu Das 1, Jens Müller 1, Friedemann Völklein 3, Alexander Kaya 2 and Michael Huth 1. Received: 16 September 2010; in revised form: October 2010 / Accepted: October 2010 /

Introduction
Experimental Section
Strain Resistance Effect
Gauge Factor Measurements
Noise Measurements
Conclusions

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