A. De Toni scite author profile

Bacteriophages are responsible for significant material and time losses in the dairy industry. This because these viruses infect the selected lactic starter cultures used for milk fermentation, i.e., the first stage toward cheese production. Standard detection techniques are time- and labor-consuming, causing huge costs related to production plant sanitation and product wasting. A new type of biosensor for early detection of bacteriophage contamination is highly demanded by the milk processing market, and inkjet-printed electrochemical sensors could be the answer. Inkjet printing is a well-known technology that has been revisited in recent years, using silver nanoparticle (AgNP) based inks for low-cost and easy fabrication of sensing and biosensing systems on flexible and eco-compatible substrates. In this research, we studied inkjet printing for the manufacturing of both interdigitated electrodes arrays (IDEAs), and a versatile system to monitor bacterial cultures by electrochemical impedance spectroscopy (EIS). In particular, we studied this biosensing system for the detection of bacteriophages by comparing its performance with standard microbiological methods. We performed electrical and morphological characterizations of the devices produced with a consumer-use inkjet printer with commercial AgNPs ink on flexible substrates, such as office paper, polyethylene (PET), and photo paper. We used light microscopy optical analysis, profilometry, atomic force microscopy (AFM), and scanning electron microscopy (SEM) imaging to define the objects resolution, their real dimensions, and thickness. We also investigated the devices’ conductivity and layout, by EIS measurements with a standard buffer solution, i.e., phosphate buffered saline (PBS). Finally, we tested our system by monitoring Lactococcus lactis cultures and bacteriophage infection. We compared the results to those obtained by two standard microbiological methods in terms of response time, proving that our technique requires less than half the time of other methods and no specialized personnel.

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Palladium on Plastic Substrates for Plasmonic Devices

Zuppella¹,

Pasqualotto

Zuccon³

et al. 2015

Sensors

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Innovative chips based on palladium thin films deposited on plastic substrates have been tested in the Kretschmann surface plasmon resonance (SPR) configuration. The new chips combine the advantages of a plastic support that is interesting and commercially appealing and the physical properties of palladium, showing inverted surface plasmon resonance (ISPR). The detection of DNA chains has been selected as the target of the experiment, since it can be applied to several medical early diagnostic tools, such as different biomarkers of cancers or cystic fibrosis. The results are encouraging for the use of palladium in SPR-based sensors of interest for both the advancement of biodevices and the development of hydrogen sensors.

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A fully electronic sensor for the measurement of cDNA hybridization kinetics

Bandiera

Cellere

Cagnin³

et al. 2007

Biosensors and Bioelectronics

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Inkjet sensors produced by consumer printers with smartphone impedance readout

Rosati

Ravarotto

Sanavia

et al. 2019

Sensing and Bio-Sensing Research

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Coadsorption optimization of DNA in binary self-assembled monolayer on gold electrode for electrochemical detection of oligonucleotide sequences

Ferrario

Scaramuzza

Pasqualotto

et al. 2013

Journal of Electroanalytical Chemistry

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Development of a complete plasmonic grating-based sensor and its application for self-assembled monolayer detection

et al. 2014

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This work presents an integrated plasmonic biosensing device consisting of a one-dimensional metallic lamellar grating designed to exploit extraordinary transmission of light toward an underlying silicon photodetector. By means of finite element simulations, the grating parameters have been optimized to maximize the light transmission variation induced by the functionalization of the gold nanostructures. An optimized grating was fabricated using an electron beam process and an optoelectronic test bench suitable for sample tests was developed. A clear difference in the grating transmitted light due to surface functionalization was observed in presence of TM polarized illumination.

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A. De Toni

Silver nanoparticles inkjet-printed flexible biosensor for rapid label-free antibiotic detection in milk

Implementation and testing of a compact and high-resolution sensing device based on grating-coupled surface plasmon resonance with polarization modulation

Inkjet Printed Interdigitated Biosensor for Easy and Rapid Detection of Bacteriophage Contamination: a Preliminary Study for Milk Processing Control Applications

Palladium on Plastic Substrates for Plasmonic Devices

A fully electronic sensor for the measurement of cDNA hybridization kinetics

Inkjet sensors produced by consumer printers with smartphone impedance readout

Coadsorption optimization of DNA in binary self-assembled monolayer on gold electrode for electrochemical detection of oligonucleotide sequences

Development of a complete plasmonic grating-based sensor and its application for self-assembled monolayer detection

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