Preston A. Pinto scite author profile

Preston A. Pinto

3Publications

4Citation Statements Received

1Citation Statement Given

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Virginia Tech

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Bio-Inspired Flow Sensors Fabricated From Carbon Nanomaterials

Pinto

Sarles

Leo

et al. 2011

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Carbon-based flow sensors can be made by embedding carbon nanotubes (CNT) into a polymeric substrate. Specifically, when a conductive aqueous solution flows over the surface of the exposed CNT, a flow-dependent voltage is generated. The carbonaceous flow sensors fabricated in our work were all tested in salt water (5% NaCl). In order to measure the surface coverage of the CNT coated sensors, the electrical resistance across the surface of each sample was measured. Electrical Impedance Spectroscopy (EIS) measurements were also carried out in order to understand the electrical relationship between the sensor and the salt water. In order to study the surface topology and morphology of the flow sensors, scanning electron microscopy (SEM) was used. Voltage measurements of sensors with different levels of resistance were tested in varying fluid velocities. The least resistive sensor showed small, but detectable changes in voltages, while higher resistance sensors showed less response. On the other hand, the average current did not change with varying flow conditions for any of the sensors.

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Paper-based capacitive mass sensor

Allen

Pinto

Traore

et al. 2011

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Paper-based MEMS is a new area in electro mechanical systems. We have develop MEMS sensing device that is capable of mea small as 2mg (~20μN) with a sensitivity of 0.5f device, we monitored changes in capacitance va related to mass changes. This capacitive-ba which uses a cantilever beam design, promotes use of paper in the design of micro systems. Th in this paper on building a capacitive sensor because the overall costs are considerably methods used can serve as a building block to co and analyses for future MEMS sensors.

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A bio-inspired aquatic flow sensor using an artificial cell membrane

Pinto

Garrison

Leo

et al. 2012

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Preston A. Pinto

Bio-Inspired Flow Sensors Fabricated From Carbon Nanomaterials

Paper-based capacitive mass sensor

A bio-inspired aquatic flow sensor using an artificial cell membrane

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