Direct-write nanoscale printing of nanogranular tunnelling strain sensors for sub-micrometre cantilevers

Direct-write nanoscale printing of nanogranular tunnelling strain sensors for sub-micrometre cantilevers

Reducing the size of cantilever-based sensors increases the sensitivity and detection speed of techniques such as atomic force microscopy. Here, the authors demonstrate a nanomechanical readout method that can be easily scaled down in size by using electron co-tunnelling through a nanogranular metal...

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Autores principales: Maja Dukic, Marcel Winhold, Christian H. Schwalb, Jonathan D. Adams, Vladimir Stavrov, Michael Huth, Georg E. Fantner
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2016
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Acceso en línea:https://doaj.org/article/876ac1078e5346298b675aca6a7fd7d3
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Sumario:Reducing the size of cantilever-based sensors increases the sensitivity and detection speed of techniques such as atomic force microscopy. Here, the authors demonstrate a nanomechanical readout method that can be easily scaled down in size by using electron co-tunnelling through a nanogranular metal.

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