Juan Camilo Acosta scite author profile

Juan Camilo Acosta

3Publications

33Citation Statements Received

29Citation Statements Given

How they've been cited

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Affiliations

University of Oklahoma, Institute for Intelligent Systems and Robotics, Sorbonne University

Publications

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A tuning fork based wide range mechanical characterization tool with nanorobotic manipulators inside a scanning electron microscope

Acosta

Hwang

Polesel-Maris

et al. 2011

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This study proposes a tuning fork probe based nanomanipulation robotic system for mechanical characterization of ultraflexible nanostructures under scanning electron microscope. The force gradient is measured via the frequency modulation of a quartz tuning fork and two nanomanipulators are used for manipulation of the nanostructures. Two techniques are proposed for attaching the nanostructure to the tip of the tuning fork probe. The first technique involves gluing the nanostructure for full range characterization whereas the second technique uses van der Waals and electrostatic forces in order to avoid destroying the nanostructure. Helical nanobelts (HNB) are proposed for the demonstration of the setup. The nonlinear stiffness behavior of HNBs during their full range tensile studies is clearly revealed for the first time. Using the first technique, this was between 0.009 N/m for rest position and 0.297 N/m before breaking of the HNB with a resolution of 0.0031 N/m. For the second experiment, this was between 0.014 N/m for rest position and 0.378 N/m before detaching of the HNB with a resolution of 0.0006 N/m. This shows the wide range sensing of the system for potential applications in mechanical property characterization of ultraflexible nanostructures.

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Graphene as thin film infrared optoelectronic sensor

Hwang

Acosta

Vela

et al. 2009

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Fracturing Fluids Effect on Mechanical Properties in Shales

Acosta

Dang

Curtis

et al. 2020

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