Used WATERS 2695 #9262631 for sale
URL successfully copied!
Tap to zoom
ID: 9262631
HPLC System
Type: Quaternary
With 2996 Photodiode array detector
LAC/E32 Acquisition server
Digital display
Programmable controls
Separations module
Column compartment
CE Marked
Power: 100-240 V, 50/60 Hz, Single Phase, 9.50 Amps.
WATERS 2695 is an HPLC (High-Performance Liquid Chromatography) equipment that offers outstanding performance features for advanced chromatography. It consists of a powerful computer, controlled via the computer's graphical user interface, and a robust analytical system with fluidics, separation, and detection capabilities. 2695 is designed for high-resolution, quantitative separation of a wide range of components. Its unit includes two binary pumps for accurate, reliable HPLC analysis, a quaternary pump for gradient paths, and a diode array detection module for simultaneous multiple wavelength measurements. With dual pens, it is capable of accommodating up to four detectors simultaneously. This instrument also features a wide array of advanced delivery systems for HPLC, which includes electro-kinetic pump for precise linear flow, an on-line fractionation trap, and a multi-flow injection machine for high sample injection repeatability. Furthermore, WATERS 2695 can handle gradient eluent composition control with up to twelve compositions and a wide range of temperature control conditions. The detection tool of 2695 also features a low-light-level signal plate detector and several onboard data processing capabilities such as peak area, special plot, and integration. Its highly sensitive optical asset can detect peaks with absorbance values lower than 0.01 (mAU). In addition, it provides various capacity chromatography automatic features such as an auto-lin detector which compensates for changes in absorbance response due to temperature fluctuations. Overall, WATERS 2695 is an automated, high-performance, reliable, and easy to use HPLC model. It is an ideal instrument for researchers and laboratories that are most interested in the reliable, high-resolution, quantitative separation of complex mixtures.
There are no reviews yet