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Multifunctional hydrogel nano-probes for atomic force microscopy.


ABSTRACT: Since the invention of the atomic force microscope (AFM) three decades ago, there have been numerous advances in its measurement capabilities. Curiously, throughout these developments, the fundamental nature of the force-sensing probe-the key actuating element-has remained largely unchanged. It is produced by long-established microfabrication etching strategies and typically composed of silicon-based materials. Here, we report a new class of photopolymerizable hydrogel nano-probes that are produced by bottom-up fabrication with compressible replica moulding. The hydrogel probes demonstrate excellent capabilities for AFM imaging and force measurement applications while enabling programmable, multifunctional capabilities based on compositionally adjustable mechanical properties and facile encapsulation of various nanomaterials. Taken together, the simple, fast and affordable manufacturing route and multifunctional capabilities of hydrogel AFM nano-probes highlight the potential of soft matter mechanical transducers in nanotechnology applications. The fabrication scheme can also be readily utilized to prepare hydrogel cantilevers, including in parallel arrays, for nanomechanical sensor devices.

SUBMITTER: Lee JS 

PROVIDER: S-EPMC4876479 | biostudies-other | 2016 May

REPOSITORIES: biostudies-other

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Multifunctional hydrogel nano-probes for atomic force microscopy.

Lee Jae Seol JS   Song Jungki J   Kim Seong Oh SO   Kim Seokbeom S   Lee Wooju W   Jackman Joshua A JA   Kim Dongchoul D   Cho Nam-Joon NJ   Lee Jungchul J  

Nature communications 20160520


Since the invention of the atomic force microscope (AFM) three decades ago, there have been numerous advances in its measurement capabilities. Curiously, throughout these developments, the fundamental nature of the force-sensing probe-the key actuating element-has remained largely unchanged. It is produced by long-established microfabrication etching strategies and typically composed of silicon-based materials. Here, we report a new class of photopolymerizable hydrogel nano-probes that are produ  ...[more]

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