2020
DOI: 10.1007/s10544-020-00487-3
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3D-Printed micro-optofluidic device for chemical fluids and cells detection

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Cited by 17 publications
(18 citation statements)
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“…1. To practically exploit this physical principle, the geometry of the micro-optofluidic device has been appropriately determined, also thanks to the help of appropriate simulations reported in previous studies [27]. Briefly, the device has two inlets, necessary for the inlet of the two fluids characterizing the two-phase fluid to be studied, which are connected to the two micro-channels that, forming a T-junction, guarantee the formation of the two-phase slug flow.…”
Section: Micro-optofluidic Device Design and Working Principlementioning
confidence: 99%
See 2 more Smart Citations
“…1. To practically exploit this physical principle, the geometry of the micro-optofluidic device has been appropriately determined, also thanks to the help of appropriate simulations reported in previous studies [27]. Briefly, the device has two inlets, necessary for the inlet of the two fluids characterizing the two-phase fluid to be studied, which are connected to the two micro-channels that, forming a T-junction, guarantee the formation of the two-phase slug flow.…”
Section: Micro-optofluidic Device Design and Working Principlementioning
confidence: 99%
“…In this study two devices, which differ each other for the fabrication process and the raw materials used, were compared. The first micro-optofluidic system (Device 1 ) was realized using PDMS with a fabrication process which has already been explained elsewhere in detail [27]. The fabrication procedure followed is summarized in Fig.…”
Section: Micro-optofluidic Devices Fabrication Processesmentioning
confidence: 99%
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“…In this paper, two approaches based on low-cost technologies, 3D Printing PDMSbased and laser cutting PMMA-based, were investigated as novel methods to realize micro-optical waveguides suitable for integration in micro-optofluidics devices [21,22], comparing their performances. An ad-hoc master-slave protocol developed to realize PDMS components by 3DPrinting has been fully optimized.…”
Section: Introductionmentioning
confidence: 99%
“…This is a relevant point for application. In the literature there are increasing examples of the use of additive manufacturing in several fields ranging from microfluidics [11][12][13], tooling for composites [14,15] and injection molding [16]. Mixing epoxy blends with photocurable resins can open the field to novel formulation too if complex toughened epoxy blends area used [17,18] because this can be a suitable method to obtain the impact resistance of the printed specimens.…”
Section: Introductionmentioning
confidence: 99%