A Multi-Pump Magnetohydrodynamics Lab-On-A-Chip Device for Automated Flow Control and Analyte Delivery

Cardoso, Rafael M.; Santos, Robson Oliveira dos; Muñoz, Rodrigo A.A.; Garcı́a, Carlos D.; Blanes, Lucas

doi:10.3390/s20174909

Cited by 12 publications

(6 citation statements)

References 30 publications

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“…), furniture (door canopies, functional balustrades), welfare (cabinets), lighting (transparency and brilliance optical applications), etc. [10][11][12][13][14][15].…”

Section: Introductionmentioning

confidence: 99%

A Generalised Approach on Kerf Geometry Prediction during CO2 Laser cut of PMMA Thin Plates using Neural Networks

Kechagias

Ninikas

Stavropoulos

et al. 2021

Lasers Manuf. Mater. Process.

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This study presents an application of feedforward and backpropagation neural network (FFBP-NN) for predicting the kerf characteristics, i.e. the kerf width in three different distances from the surface (upper, middle and down) and kerf angle during laser cutting of 4 mm PMMA (polymethyl methacrylate) thin plates. Stand-off distance (SoD: 7, 8 and 9 mm), cutting speed (CS: 8, 13 and 18 mm/sec) and laser power (LP: 82.5, 90 and 97.5 W) are the studied parameters for low power CO 2 laser cutting. A three-parameter three-level full factorial array has been used, and twentyseven (3 3 ) cuts are performed. Subsequently, the upper, middle and down kerf widths (Wu, Wm and Wd) and the kerf angle (KA) were measured and analysed through ANOM (analysis of means), ANOVA (analysis of variances) and interaction plots. The statistical analysis highlighted that linear modelling is insufficient for the precise prediction of kerf characteristics. An FFBP-NN was developed, trained, validated and generalised for the accurate prediction of the kerf geometry. The FFBP-NN achieved an R-all value of 0.98, in contrast to the ANOVA linear models, which achieved Rsq values of about 0.86. According to the ANOM plots, the parameter values which optimize the KA resulting in positive values close to zero degrees were the 7 mm SoD, 8 mm/s CS and 97.5 W LP.

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“…), furniture (door canopies, functional balustrades), welfare (cabinets), lighting (transparency and brilliance optical applications), etc. [10][11][12][13][14][15].…”

Section: Introductionmentioning

confidence: 99%

A Generalised Approach on Kerf Geometry Prediction during CO2 Laser cut of PMMA Thin Plates using Neural Networks

Kechagias

Ninikas

Stavropoulos

et al. 2021

Lasers Manuf. Mater. Process.

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“…A recent overview of the various types of microcontrollers used in the scientic eld has been described by Prabhu and Urban and there have been a number of recent articles demonstrating how low-cost electronics can be integrated with chemical synthesis and continuous ow synthesis for substance detection. [7][8][9][10][11][12][13][14][15][16][17][18][19][20]…”

Section: Introductionmentioning

confidence: 99%

Digitisation of a modular plug and play 3D printed continuous flow system for chemical synthesis

Montaner,

Penny,

Hilton

2023

Digital Discovery

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“…As manufacturing processes achieve accurate micron-sized sensors and actuators, the demand to manipulate fluids in small volumes has been reported in many fields, including biotechnology [1][2][3], nanomaterials synthesis [4], and lab-on-achip [5,6]. Once dimension shrinks, fluid behavior differs from what is observed in the macro scale, surface forces dominate, and traditional pressure-driven flows suffer from large viscous stress [7]. In this context, electrohydrodynamic (EHD) forces arising from an external electric field provide an efficient means of microflow control [8].…”

Section: Introductionmentioning

confidence: 99%

3D Concentric Electrodes-Based Alternating Current Electrohydrodynamics: Design, Simulation, Fabrication, and Potential Applications for Bioassays

et al. 2022

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Two-dimensional concentric asymmetric microelectrodes play a crucial role in developing sensitive and specific biological assays using fluid micromixing generated by alternating current electrohydrodynamics (ac-EHD). This paper reports the design, simulation, fabrication, and characterization of fluid motion generated by 3D concentric microelectrodes for the first time. Electric field simulations are used to compare electric field distribution at the electrodes and to analyze its effects on microfluidic micromixing in 2D and 3D electrodes. Three-dimensional devices show higher electric field peak values, resulting in better fluid micromixing than 2D devices. As a proof of concept, we design a simple biological assay comprising specific attachment of streptavidin beads onto the biotin-modified electrodes (2D and 3D), which shows ~40% higher efficiency of capturing specific beads in the case of 3D ac-EHD device compared to the 2D device. Our results show a significant contribution toward developing 3D ac-EHD devices that can be used to create more efficient biological assays in the future.

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A Multi-Pump Magnetohydrodynamics Lab-On-A-Chip Device for Automated Flow Control and Analyte Delivery

Cited by 12 publications

References 30 publications

A Generalised Approach on Kerf Geometry Prediction during CO2 Laser cut of PMMA Thin Plates using Neural Networks

A Generalised Approach on Kerf Geometry Prediction during CO2 Laser cut of PMMA Thin Plates using Neural Networks

Digitisation of a modular plug and play 3D printed continuous flow system for chemical synthesis

3D Concentric Electrodes-Based Alternating Current Electrohydrodynamics: Design, Simulation, Fabrication, and Potential Applications for Bioassays

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