Vls 3.60 laser engraver

Manufactured by Universal Systems

The VLS 3.60 is a laser engraver designed for precision marking and etching on a variety of materials. It features a 60-watt CO2 laser and a work area of 36 x 24 inches. The device can be used to create customized designs, logos, and text on materials such as wood, acrylic, and metal.

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Lab products found in correlation

Autocad, by Autodesk (9 mentions) Standard 17 glass fiber, by GE Healthcare (6 mentions) Whatman grade 1 filter paper, by GE Healthcare (3 mentions)

3 protocols using vls 3.60 laser engraver

Laser-Cut Paper-Plastic Microfluidic Device

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Standard 17 glass fiber, Whatman filter paper Grade 1, and nitrocellulose (FF120HP) membranes were acquired from GE Healthcare Life Sciences (Bangalore, India). Supporting plastic materials: 0.18 mm-thick transparency sheets and 2.15 mm-thick transparent acrylic sheets were acquired locally. A double-coated pressure-sensitive adhesive film (PSA; 3M^TM 9731) was used to secure stacked paper and plastic layers. All materials were cut using a 50 W CO₂ laser in a VLS 3.60 laser engraver (Universal Laser Systems, Scottsdale, AZ). All designs were created in AutoCAD (Autodesk, San Rafael, CA).

Das D., Dsouza A., Kaur N., Soni S, & Toley B.J. (2019). Paper Stacks for Uniform Rehydration of Dried Reagents in Paper Microfluidic Devices. Scientific Reports, 9, 15755.

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Laser-Cut Material Fabrication

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All materials were cut using a 50 W CO₂ laser in a VLS
3.60 laser engraver (Universal Laser Systems,
Scottsdale, AZ). All designs were created in AutoCAD (Autodesk, San
Rafal, CA).

Agarwal P, & Toley B.J. (2022). Unreacted Labeled PCR Primers Inhibit the Signal in a Nucleic Acid Lateral Flow Assay as Elucidated by a Transport Reaction Model. ACS Measurement Science Au, 2(4), 317-324.

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Fabrication of Microfluidic Devices

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Standard 17 glass fiber (referred to as paper pads henceforth) was acquired from GE Healthcare Life Sciences (Bangalore, India). A double-sided pressure sensitive adhesive (PSA; 3M^TM 9731) was used to secure the different layers of the device together. Transparent acrylic sheets (2.8 mm-thick), black acrylic sheets (2 mm-thick) and transparency sheets (0.07 mm) were acquired locally. All materials were cut using a 50 W CO₂ laser in a VLS 3.60 laser engraver (Universal Laser Systems, Scottsdale, AZ). All designs were created in AutoCAD (Autodesk, San Rafael, CA).

Kaur N., Michael J.S, & Toley B.J. (2019). A modular paper-and-plastic device for tuberculosis nucleic acid amplification testing in limited-resource settings. Scientific Reports, 9, 15367.

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