3D-printed lab-on-valve for fluorescent determination of cadmium and lead in water.
Elodie Mattio,Fabien Robert-Peillard,Laurent Vassalo,Catherine Branger,André Margaillan,Christophe Brach-Papa,Joël Knoery,Jean-Luc Boudenne,Bruno Coulomb +8 more
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TLDR
A new 3D printed lab-on-valve flow system was developed to selectively quantify lead and cadmium in water with a linear response from 0.2 to 15 µg L-1 and detection limits of 0.17 and 0.20‹g‹l-1 for lead and Cadmium, which seems adapted for natural water analysis.About:
This article is published in Talanta.The article was published on 2018-06-01 and is currently open access. It has received 41 citations till now. The article focuses on the topics: Cadmium.read more
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3D Printed Microfluidics
TL;DR: 3D printing is predicted to become the dominant microfluidic fabrication method with additional work to advance printer hardware and software control, expand and improve resin and printing material selections, and realize additional applications for 3D printed devices.
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Europium-Doped Lead-Free Cs3Bi2Br9 Perovskite Quantum Dots and Ultrasensitive Cu2+ Detection
Nan Ding,Donglei Zhou,Gencai Pan,Wen Xu,Xu Chen,Dongyu Li,Xiaohui Zhang,Jinyang Zhu,Yanan Ji,Hongwei Song +9 more
TL;DR: In this paper, an eco-friendly and nontoxic fluorescence probe for metal ion sensing was developed for detecting pollution triggered by highly toxic heavy metal ions, which has become of worldwide critical concern.
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Current and future impact of 3D printing on the separation sciences
TL;DR: The impact 3D printing is having on the field, both current and future, recent achievements and challenges, and improvements required to reach its maximum potential as a transformative technology are described.
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3D-Printed Biosensor Arrays for Medical Diagnostics
TL;DR: 3D printing in the fabrication of microfluidics, supporting equipment, and optical and electronic components of diagnostic devices is presented and emerging diagnostics systems using 3D bioprinting as a tool to incorporate living cells or biomaterials into 3D printing is reviewed.
Journal ArticleDOI
Digital Manufacturing for Microfluidics.
TL;DR: The various printer types, resolution, biocompatibility issues, DM microfluidic designs, and the bright future ahead for this promising, fertile field are reviewed and discussed.
References
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The upcoming 3D-printing revolution in microfluidics
TL;DR: The salient features of PDMS molding with those of 3D-printing are compared and an overview of the critical barriers that have prevented the adoption of3D-printed systems by microfluidic developers are given, namely resolution, throughput, and resin biocompatibility.
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Lab-on-valve: universal microflow analyzer based on sequential and bead injection
TL;DR: A novel methodology for downscaling reagent based assays to micro- and submicroliter level and it is shown that sample handling in the sequential injection mode, which employs forward, reversed and stopped flow, can be programmed to accommodate a wide variety of assays within the same microfluidic device.
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Comparing Microfluidic Performance of Three-Dimensional (3D) Printing Platforms
Niall P. Macdonald,Joan M. Cabot,Petr Smejkal,Rosanne M. Guijt,Brett Paull,Michael C. Breadmore +5 more
TL;DR: A direct experimental comparison of the three 3D printing technologies dominating microfluidics was conducted using a Y-junction micro fluidic device, the design of which was optimized for each printer: fused deposition molding (FDM), Polyjet, and digital light processing stereolithography (DLP-SLA).
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3D printing: an emerging tool for novel microfluidics and lab-on-a-chip applications
TL;DR: In this article, the authors introduce the basics of 3D printing technology for the microfluidic community and then summarize its emerging applications in creating novel 3D nano-drone devices.
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3D-printed microfluidic devices: fabrication, advantages and limitations—a mini review
Chengpeng Chen,Benjamin T. Mehl,Akash S. Munshi,Alexandra D. Townsend,Dana M. Spence,R. Scott Martin +5 more
TL;DR: In this review, the most recent trends in 3D-printed microfluidic devices are discussed, and a focus is given to the fabrication aspects of these devices.