Chicken anti-protein A polyclonal antibody (1.0 mg/mL; Arista Biological, Allentown, PA, USA; the purity of protein A > 98% at 214 nm by HPLC) and goat anti-human IgG antibody (1.0 mg/mL; Lampire Biological Laboratories, Pipersville, PA, USA) were dispensed to the nitrocellulose membrane (UniSart CN140; Sartorius Stedim Biotech SA) to be the test and the control lines, respectively, by using a lateral flow dispenser (XYZ3000 Dispensing Platform; BioDot Inc., Irvine, CA, USA; 1 µL/cm) and dried at 37°C for 1 h. The four parts of LFIA including sample pad (cytosep 1660; Pall Gelman Sciences), nitrocellulose membrane [UniSart CN140 NCM (Sartorius Stedim Biotech SA)], conjugate pad (GF33; Whatman Schleicher & Schuell), and absorbent pad (Whatman ABS. PAD #470; Whatman Schleicher & Schuell) were assembled as described previously (8 (link)). The treated glass fiber conjugate pad, sample pad, and absorbent pad were assembled to the backing card with a 0.2 cm overlap between each component (Fig. 1 ). Then the LFIA was cut into 4 mm × 6 cm strips using a CM5000 Guillotine Cutter (BioDot Inc., Irvine, CA, USA). The strips were kept at 4°C in a desiccator.
Cm5000 guillotine cutter
Manufactured by BioDot
Sourced in United States
The CM5000 Guillotine Cutter is a specialized lab equipment designed for precise and consistent cutting of materials. It features a sturdy guillotine-style blade that can cleanly slice through a variety of substrates. The CM5000 is engineered to provide accurate and repeatable cuts, making it a reliable tool for laboratory applications.
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Lab products found in correlation
3 protocols using cm5000 guillotine cutter
1
Lateral Flow Immunoassay Assembly Protocol
2
Lateral Flow Assay Device Assembly
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The NC membrane was coupled in the center of polyvinyl chloride support. The absorbent pad and the conjugate pad were glued by overlapping 1 mm at the top and bottom of the NC Membrane, respectively. The sample pad was then glued by overlapping 2 mm on the bottom of the conjugate pad. The master assembled card was cut into 4 mm wide strips using a CM5000-guillotine-cutter (BioDot, Irvine, USA).
3
Characterization of TMSC Delayed Pattern
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The TMSC delayed pattern was created using a Dimatix Materials Printer (Fujifilm DMP-2850, United State). The characterization was performed using the JEM-1400Flash series 120 kV transmission electron microscope (JEOL Ltd., Japan), and laser scanning confocal microscopy (LSCM) from LEXT OL55000 (Olympus, Japan). UV–visible absorption spectra were obtained with the HEWLETT-PACKARD 8453 UV–visible spectrometer (Agilent Technologies, UK). The lateral flow immunoassay was cut using the CM5000 Guillotine cutter from BioDot Inc. Infrared spectroscopy was performed with the Nicolet iS50 FTIR (ATR mode) Spectrometer (Thermo Scientific, United State).
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