Fluorescence microplate reader refers to an instrument that can measure the fluorescence of samples in a microplate most often a 96 or 384 well plate.
Fluorescence plate reader molecular devices.
Fluorescence plate reader molecular device spectramax geminixs 1 turn on the instrument spectramax geminixs and allow the instrument for self calibration and initialization.
2 turn on the computer and open the software softmax pro 7.
Spectratest validation plates form molecular devices such as abs1 absorbance fl1 fluorescence lm1 luminescence validation plates are the valuable tools for verifying that absorbance fluorescence and luminescence capable microplate readers are operating correctly for glp and gmp laboratories.
Imaging system from molecular devices helps recursion produce the largest publicly available set of human cellular morphological data for covid 19 therapeutic research.
Absorbance fluorescence and luminescence detection with upgradeable high.
The spectramax i3x multi mode microplate reader measures absorbance fluorescence and luminescence with available upgrades including western blot cell imaging and fast kinetics with injectors plus additional detection modes.
Users need to contact dr.
Multiple point well scanning optimizes cell based assay sensitivity.
Easy to use intuitive configurable microplate readers with industry leading softmax pro microplate software solution for increased productivity.
Unlimited breadth of user upgradeable application modules expands research capabilities.
Because many reagents can be fluorescently labeled spectrofluorometers are used to detect many biological and chemical processes.
Under start menu all programs softmax pro 4 7 1 experimental tool bar instrument.
The biomolecular analysis facility has a molecular devices spectramax gemini em fluorescent plate reader.
Our specialized plate readers for absorbance fluorescence and luminescence detection provide optimal sensitivity.
Spectrofluorometers or plate readers with fluorescence detection typically offer greater sensitivity and a wider dynamic range compared to absorbance detection.
The instrument is located in pinn hall room 1074 in the biomolecular analysis facility.
John shannon of the biomolecular analysis facility at 434 243 9399 or by email at jds1c virginia edu to establish an account on the computer which controls.
