D.C. Chavan scite author profile

Ferrule-top probes are self-aligned all-optical devices obtained by fabricating a cantilever on the top of a ferruled optical fiber. This approach has been proven to provide a new platform for the realization of small footprint atomic force microscopes (AFMs) that adapt well to utilization outside specialized laboratories [D. Chavan et al., Rev. Sci. Instrum. 81, 123702 (2010); 82, 046107 (2011)]. In this paper we now show that ferrule-top cantilevers can be also used to develop nanoindenters. Our instrument combines the sensitivity of commercial AFM-based indentation with the ease-of-use of more macroscopic instrumented indenters available today on the market. Furthermore, the all-optical design allows smooth operations also in liquids, where other devices are much more limited and often provide data that are difficult to interpret. This study may pave the way to the implementation of a new generation user-friendly nanoindenters for the measurement of the stiffness of samples in material sciences and medical research.

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Ferrule-top atomic force microscope

Chavan

Gruca²,

Man³

et al. 2010

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Compensator design for improved counterbalancing in high speed atomic force microscopy Rev. Sci. Instrum. 82, 113712 (2011) Rotational positioning system adapted to atomic force microscope for measuring anisotropic surface properties Rev. Sci. Instrum. 82, 113710 (2011) Note: Curve fit models for atomic force microscopy cantilever calibration in water Rev. Sci. Instrum. 82, 116107 (2011) Electroplated CoPt magnets for actuation of stiff cantilevers Rev. Sci. Instrum. 82, 115002 (2011) Additional information on Rev. Sci. Instrum. Light coupled from the opposite side of the fiber allows detection of cantilever deflections. In this paper, we demonstrate that ferrule-top cantilevers can be used to develop ultra compact AFMs for contact mode imaging in air and in liquids with sensitivity comparable to that of commercial AFMs. The probes do not require any alignment procedure and are easy to handle, favoring applications also outside research laboratories.

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Top-down approach to fiber-top cantilevers

et al. 2011

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Taking inspiration from conventional top-down micromachining techniques, we have fabricated a low mass gold fiber-top cantilever via align-and-shine photolithography. The cantilever is characterized by measuring its resonance frequency and mechanical quality factor. Our results show that the device grants mass sensitivity comparable to that reported for similar standard cantilevers. This proof-of-concept paves the way to series production of highly sensitive fiber-top devices for remote detection of biochemical substances.

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Note: Ferrule-top atomic force microscope. II. Imaging in tapping mode and at low temperature

Chavan¹,

Andres²,

Iannuzzi³

2011

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Demonstration of an optically actuated ferrule-top device for pressure and humidity sensing

Gruca

Chavan

Rector

et al. 2013

Sensors and Actuators A: Physical

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D.C. Chavan

Ferrule-top nanoindenter: An optomechanical fiber sensor for nanoindentation

Ferrule-top atomic force microscope

Top-down approach to fiber-top cantilevers

Note: Ferrule-top atomic force microscope. II. Imaging in tapping mode and at low temperature

Demonstration of an optically actuated ferrule-top device for pressure and humidity sensing

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