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An open-source platform to study uniaxial stress effects on nanoscale devices.

G SignorelloM SchraffPatrick ZellekensU DrechslerM BürgeH R SteinauerR HellerM TschudyH Riel
Published in: The Review of scientific instruments (2018)
We present an automatic measurement platform that enables the characterization of nanodevices by electrical transport and optical spectroscopy as a function of the uniaxial stress. We provide insights into and detailed descriptions of the mechanical device, the substrate design and fabrication, and the instrument control software, which is provided under open-source license. The capability of the platform is demonstrated by characterizing the piezo-resistance of an InAs nanowire device using a combination of electrical transport and Raman spectroscopy. The advantages of this measurement platform are highlighted by comparison with state-of-the-art piezo-resistance measurements in InAs nanowires. We envision that the systematic application of this methodology will provide new insights into the physics of nanoscale devices and novel materials for electronics, and thus contribute to the assessment of the potential of strain as a technology booster for nanoscale electronics.
Keyphrases
  • high throughput
  • raman spectroscopy
  • atomic force microscopy
  • high resolution
  • room temperature
  • machine learning
  • deep learning
  • stress induced
  • risk assessment
  • amino acid
  • structural basis