Contacts and Location
Enquire about this equipment | |
Organisational Unit |
Riga Technical University Faculty of Natural Sciences and Technology Institute of Biomaterials and Bioengineering - Latvia, Rīga |
Description
The Waters ACQUITY UPLC Fluorescence (FLR) detector is a multi-channel, multi-wavelength fluorescence detector designed for use in the ACQUITY UPLC system. Optimized for UltraPerformance Liquid Chromatography (UPLC), the FLR detector features an axially illuminated, low-volume flow cell design that minimizēs stray light while maximizing light throughput – echancing the quality of ther fluorescence signal. Improved low-noise electronics, support for data rates up to 80 Hz, and 3-D scanning capability results in a detector that brings unsurpassed sensitivity and selectivity to UPLC analyses. The ACQUITY UPLC® Fluorescence (FLR) Detector delivers sensitivity and selectivity to fluorescence-based applications. It extends the benefits of UPLC technology for the analysis of polynuclear aromatic hydrocarbons (PAHs), drugs of abuse, and vitamins – any component with chemiluminescent properties, such as fluorescence or phosphorescence. Transfer your HPLC fluorescence methods to UltraPerformance LC® for greater throughput without compromising sensitivity.
Specification
Features: • Effective integration algorithms, sampling rates up to 80 Hz, and independent optimization of filtering constants facilitate accurate and reproducible integration • Flexible 2D and 3D scanning capabilities for the quick determination of wavelength maxima • Intuitive software interface and diagnostic tools instill confidence that the detector is performing optimally • Low volume (<2uL), axially illuminated flow cell design allows for better light absorption, resulting in enhanced sensitivity • Advanced optical design to maximize light throughput, and reduce light scatter, allowing for better signal-to-noise performance • High-speed data rates (up to 80Hz) and independent optimization of filter time constants allowing full characterization of narrow, sharp peaks typical of UPLC separations • Multiple detection modes - 2D, 3D, and on-the-fly spectral scanning – can greatly reduce the time needed to develop fluorescence detection methods by quickly determining wavelength maxima • Intuitive system console provides simple navigation to manage instrument parameters for easy system control
Specification:
Optical component specifications:
Electrical specifications:
Physical/Environmental specifications:
Services
fluorensence analysis
Status
Manufacturer
Waters
Model
ACQUITY UPLC FLR