3465 Electrochemical Detector for LC Systems
Sensitivity, reliability, and simplicity combined
The Waters 3465 Electrochemical Detector combines sensitivity, reliability, and simplicity for electrochemical detection. Its versatile detection modes are ideally suited for analyzing a wide range of compounds.
The 3465 Electrochemical Detector’s multiple flow cell configuration combines working and reference electrode designs to minimize cost and enhance flexibility. The flow cell accommodates several reference electrodes: ISAAC; traditional salt-bridge design, which limits air bubble formation; and Hy-Ref, which is ideal for carbohydrate analysis and is compatible with extreme mobile phases. The detector is designed for ultra-trace analysis and is compatible with both analytical and microbore scale applications.
Specifications
Overview
- Selectivity for a wide range of applications such as catecholamines, aminoglycosides, carbohydrates, neurotransmitters, phenols, and thiols with multiple flow cell, electrode, and detection mode options
- Sensitivity for ultra-trace analysis to detect concentrations as low as 10 ρmol/L and as high as µmol/L
- Simplicity of operation plus versatility with Empower control and use with the Waters liquid chromatography (LC) portfolio
- Reliability backed by Waters service and application support and 21CFR Part 11 compliance readiness
Recommended Use: For ultra-trace analysis compatible with both analytical and microbore scale applications.
Features Header
Advanced sensitivity
- Achieve ultra-trace analysis
- Eliminate matrix interferences with an Advanced Digital Filter
- Improve thermal operating stability with Faraday-shielded oven
Flexible for your requirements
The 3465 is controlled by industry-leading Empower Chromatography Data System (CDS) and compatible with the Arc HPLC, Alliance, ACQUITY Arc, and ACQUITY UPLC H-Class Systems, 1515 isocratic and gradient Empower CDS-based systems, Breeze, and QS-based systems when configured with an eSat/IN analog/Digital convertor. There are two configurations of the 3465 ECD: one supports control of a single flow cell and the second supports the independent control of dual flow cells.