2014
DOI: 10.5101/nml140030a
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Controlling the Cassie-to-Wenzel Transition: an Easy Route towards the Realization of Tridimensional Arrays of Biological Objects

Abstract: Abstract:In this paper we provide evidence that the Cassie-to-Wenzel transition, despite its detrimental effects on the wetting properties of superhydrophobic surfaces, can be exploited as an effective micro-fabrication strategy to obtain highly ordered arrays of biological objects. To this purpose we fabricated a patterned surface wetted in the Cassie state, where we deposited a droplet containing genomic DNA. We observed that, when the droplet wets the surface in the Cassie state, an array of DNA filaments p… Show more

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“…Before images acquisition, cells were fixed in glutaraldehyde and sputter coated with gold as previously described. [9][10][11] The mechanical properties of cells were probed by atomic force microscopy (Nanowizard II, JPK, Germany) mounted on an inverted optical microscope (Axio Observer ZEISS, Germany). Cells were kept in the cell culture medium at a constant temperature (37 C) throughout data acquisition.…”
Section: Biomechanical Investigation Of Colorectal Cancer Cellsmentioning
confidence: 99%
“…Before images acquisition, cells were fixed in glutaraldehyde and sputter coated with gold as previously described. [9][10][11] The mechanical properties of cells were probed by atomic force microscopy (Nanowizard II, JPK, Germany) mounted on an inverted optical microscope (Axio Observer ZEISS, Germany). Cells were kept in the cell culture medium at a constant temperature (37 C) throughout data acquisition.…”
Section: Biomechanical Investigation Of Colorectal Cancer Cellsmentioning
confidence: 99%