Tag: Multiple wavelength

SuperNOVA: Superior Porous Nitrocellulose Surface for Fluorescence Detection

Fluorescence detection is a preferred method for many quantitative protein microarray assays in research and diagnostic applications due to its excellent sensitivity and potential for multiplexing.  Use of multiplexed fluorescence-based assays on porous nitrocellulose though has been hampered by high backgrounds at shorter excitation wavelengths (such as the 532 nm fluorescence channel). We have developed … Continued

Super G: Super Blocking and Signal-to-Noise for ONCYTE Film Slides

Fluorescence detection is a preferred method for many quantitative protein microarray assays in research and diagnostic applications due to its excellent sensitivity and potential for multiplexing. Use of multiplexed fluorescence-based assays on porous nitrocellulose though has been hampered by high backgrounds at shorter excitation wavelengths (such as the 532 nm fluorescence channel).  To maximize the … Continued