Lillo Raia scite author profile

An accurate and easy-to-use Q3 system for on-chip quantitative real-time Polymerase Chain Reaction (qPCR) is hereby demonstrated, and described in detail. The qPCR reactions take place inside a single-use Lab-on-a-Chip with multiple wells, each with 5 to 15 µL capacity. The same chip hosts a printed metal heater coupled with a calibrated sensor, for rapid and accurate temperature control inside the reaction mixture. The rest of the system is non-disposable and encased in a 7 × 14 × 8.5 (height) cm plastic shell weighing 300 g. Included in the non-disposable part is a fluorescence read-out system featuring up to four channels and a self-contained control and data storage system, interfacing with an external user-friendly software suite. Hereby, we illustrate the engineering details of the Q3 system and benchmark it with seamlessly ported testing protocols, showing that Q3 equals the performance of standard commercial systems. Overall, to the best of our knowledge, this is one of the most mature general-purpose systems for on-chip qPCR currently available.

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Potential of CO2-laser processing of quartz for fast prototyping of microfluidic reactors and templates for 3D cell assembly over large scale

Perrone

Cesaria

Zizzari

et al. 2021

Materials Today Bio

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Carbon dioxide (CO 2 )-laser processing of glasses is a versatile maskless writing technique to engrave micro-structures with flexible control on shape and size. In this study, we present the fabrication of hundreds of microns quartz micro-channels and micro-holes by pulsed CO 2 -laser ablation with a focus on the great potential of the technique in microfluidics and biomedical applications. After discussing the impact of the laser processing parameters on the design process, we illustrate specific applications. First, we demonstrate the use of a serpentine microfluidic reactor prepared by combining CO 2 -laser ablation and post-ablation wet etching to remove surface features stemming from laser-texturing that are undesirable for channel sealing. Then, cyclic olefin copolymer micro-pillars are fabricated using laser-processed micro-holes as molds with high detail replication. The hundreds of microns conical and square pyramidal shaped pillars are used as templates to drive 3D cell assembly. Human Umbilical Vein Endothelial Cells are found to assemble in a compact and wrapping way around the micro-pillars forming a tight junction network. These applications are interesting for both Lab-on-a-Chip and Organ-on-a-Chip devices.

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Microfluidic structures for large-scale manufacture combining photo-patternable materials

et al. 2016

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A novel application of SiNR, a photo-patternable adhesive material, commonly used for wafer bonding, is proposed as a promising option for fabricating, at industrial scale, fully assembled microfluidic devices at wafer level with resolution down to 15 μm. A self-sealing microchamber for real-time PCR analysis combining laminated SiNR dry films with in situ photo-patterned hydrogel passive valves is presented

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A Compact Fully Automated Nucleic Acid Extractor

Cereda

Cucchi

Bramanti

et al. 2022

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Lillo Raia

Q3: A Compact Device for Quick, High Precision qPCR

Potential of CO2-laser processing of quartz for fast prototyping of microfluidic reactors and templates for 3D cell assembly over large scale

Microfluidic structures for large-scale manufacture combining photo-patternable materials

A Compact Fully Automated Nucleic Acid Extractor

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