Vito Errico scite author profile

Microfluidic impedance cytometry offers a simple non-invasive method for single-cell analysis. Coplanar electrode chips are especially attractive due to ease of fabrication, yielding miniaturized, reproducible, and ultimately low-cost devices. However, their accuracy is challenged by the dependence of the measured signal on particle trajectory within the interrogation volume, that manifests itself as an error in the estimated particle size, unless any kind of focusing system is used. In this paper, we present an original five-electrode coplanar chip enabling accurate particle sizing without the need for focusing. The chip layout is designed to provide a peculiar signal shape from which a new metric correlating with particle trajectory can be extracted. This metric is exploited to correct the estimated size of polystyrene beads of 5.2, 6 and 7 μm nominal diameter, reaching coefficient of variations lower than the manufacturers' quoted values. The potential impact of the proposed device in the field of life sciences is demonstrated with an application to Saccharomyces cerevisiae yeast.

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Mitigating positional dependence in coplanar electrode Coulter-type microfluidic devices

Errico

Ninno

Bertani

et al. 2017

Sensors and Actuators B: Chemical

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3-D FEM Modeling and Fabrication of Circular Photonic Crystal Microcavity

Massaro

Errico

Stomeo

et al. 2008

J. Lightwave Technol.

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Nanotransducers on printed circuit boards by rational design of high-density, long, thin and untapered ZnO nanowires

et al. 2018

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Chromium inhibition and size-selected Au nanocluster catalysis for the solution growth of low-density ZnO nanowires

Errico

Arrabito

Plant

et al. 2015

Sci Rep

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The wet chemical synthesis of nanostructures has many crucial advantages over high-temperature methods, including simplicity, low-cost, and deposition on almost arbitrary substrates. Nevertheless, the density-controlled solution growth of nanowires still remains a challenge, especially at the low densities (e.g. 1 to 10 nanowires/100 μm2) required, as an example, for intracellular analyses. Here, we demonstrate the solution-growth of ZnO nanowires using a thin chromium film as a nucleation inhibitor and Au size-selected nanoclusters (SSNCs) as catalytic particles for which the density and, in contrast with previous reports, size can be accurately controlled. Our results also provide evidence that the enhanced ZnO hetero-nucleation is dominated by Au SSNCs catalysis rather than by layer adaptation. The proposed approach only uses low temperatures (≤70 °C) and is therefore suitable for any substrate, including printed circuit boards (PCBs) and the plastic substrates which are routinely used for cell cultures. As a proof-of-concept we report the density-controlled synthesis of ZnO nanowires on flexible PCBs, thus opening the way to assembling compact intracellular-analysis systems, including nanowires, electronics, and microfluidics, on a single substrate.

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Vito Errico

Coplanar electrode microfluidic chip enabling accurate sheathless impedance cytometry

Mitigating positional dependence in coplanar electrode Coulter-type microfluidic devices

3-D FEM Modeling and Fabrication of Circular Photonic Crystal Microcavity

Nanotransducers on printed circuit boards by rational design of high-density, long, thin and untapered ZnO nanowires

Chromium inhibition and size-selected Au nanocluster catalysis for the solution growth of low-density ZnO nanowires

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