Description
The Waters 2410 Differential Refractometer (Waters RID) is a differential refractive index detector designed for high performance liquid chromatography applications. It operates as a stand-alone unit with an integrator or chart recorder, or with a Waters system controller or Waters data system.
Waters Alliance 2695 HPLC System
The
Waters 2695 HPLC System integrates solvent and sample management with consistent system-to-system performance and high reproducibility. The Waters chromatography system ensures the reliability of results through high injection precision for precise quantification and exceptional retention time repeatability for accurate peak identification. The 2695’s solvent delivery system features quaternary blending with a fixed delay volume for consistent and predictable results, regardless of system back pressure. With pulse-free solvent delivery through the serial flow path without the use of dampeners and accurate flow from online solvent degassing and automated solvent compressibility for, the Waters HPLC system truly features advanced solvent delivery capabilities.
Waters Alliance 2695 HPLC Systeem + 2410 Refractive Index detector
Waters 2410 RID Is a differential refractive index detector designed for high performance liquid chromatography applications. It can operate as a stand-alone unit with an integrator or chart recorder, or with a Waters system controller or Waters data system.
Waters 2695 HPLC System + Waters 2410 RID
The
Waters 2410 Refractive Index (RI) Detector is a high-performance liquid chromatography (HPLC) detector that measures changes in a liquid's refractive index, ideal for analyzing compounds lacking UV absorption like sugars or polymers, featuring a stable, temperature-controlled flow cell, auto-zero/purge functions, and integration with data systems for reliable quantification in research or diagnostics.
Typical Applications Waters 2410 RID
Carbohydrates/Sugars: Often used in analyzing sugars, as they don't absorb UV light well.
Polymers: Used in Gel Permeation Chromatography (GPC) to determine molecular weight distributions.
Clinical Chemistry: For analyzing specific diagnostic indicators and monitored compounds.
