J. Tanner scite author profile

We report a controllable strain gauge factor obtained using a two-dimensional nanoparticle layer formed from platinum nanoparticles. A vacuum technique is used for room temperature nanoparticle deposition that allows control of the electrical resistance of the film, exhibiting semiconducting-like behavior when nanoparticle arrays cover the surface below a threshold value while above it a metallic behavior is prevalent. The highest sensitivity is obtained for intermediate density values of the nanoparticle assemblies, which could be explained using a tunneling and hopping current expression. The device, which exhibits more than one order of magnitude higher strain sensitivity than continuous metallic films, is fabricated at room temperature through standard lithographic processing allowing for miniaturization and easy integration in silicon technology or flexible substrates.

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Nanoparticle Strain Sensor

Tanner

Mousadakos

Broutas

et al. 2011

Procedia Engineering

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Surface functionalization studies and direct laser printing of oligonucleotides toward the fabrication of a micromembrane DNA capacitive biosensor

Tsekenis

Chatzipetrou

Tanner

et al. 2012

Sensors and Actuators B: Chemical

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Chemical sensing based on double layer PHEMA polymer and platinum nanoparticle films

Skotadis

Tanner

Stathopoulos

et al. 2012

Sensors and Actuators B: Chemical

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Flexible platinum nanoparticle strain sensors

Skotadis

Mousadakos

Tanner

et al. 2013

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J. Tanner

High strain sensitivity controlled by the surface density of platinum nanoparticles

Nanoparticle Strain Sensor

Surface functionalization studies and direct laser printing of oligonucleotides toward the fabrication of a micromembrane DNA capacitive biosensor

Chemical sensing based on double layer PHEMA polymer and platinum nanoparticle films

Flexible platinum nanoparticle strain sensors

Contact Info

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