Liquid Chromatography CLLC-601 ensures precise separation with a pumping flow rate of 0.001 to 9.999 mL/min. It operates within a pressure range of up to 42 MPa for stable performance. Equipped with deuterium lamp for detection and chromatographic analysis. Incorporated with advanced software for real-time monitoring. Our Liquid Chromatography system is fully automated with gradient pumping system.
| Pump system | Gradient |
| Pump Flow Rate | 0.001 to 9.999 mL/min |
| Pump Flow Rate Accuracy | ≤ ± 0.5% (1 mL/min, water, room temperature) |
| Pump Flow Rate Precision | RSD ≤ 0.08% (1 mL/min, water, room temperature) |
| Pressure Range | ≤ 42 MPa |
| Detector Lamp | Deuterium lamp |
| Wavelength Range | 190 nm to 700 nm |
| Baseline Noise | ≤ 8 × 10⁻⁶ AU |
| Baseline Drift | ≤ 1 × 10⁻⁴ AU/h |
| Detection Limit | 4 × 10⁻⁹ g/mL (Naphthalene/methyl alcohol solvent) |
| Wavelength Accuracy | ±1 nm |
| Pump Dimension | 470 × 380 × 300 mm |
| Detector Dimension | 470 × 380 × 400 mm |
| Pump Net Weight | 8 kg |
| Detector Net Weight | 8 kg |
| Pump Gross Weight | 10 kg |
| Detector Gross Weight | 10 kg |
| Gross Weight | 10 kg |
High Sensitivity
Selectivity
High-Resolution
Fast Analysis
Advanced Detection Limits
Liquid Chromatography CLLC-601 is used in pharmaceuticals, food safety, environmental analysis, and chemical research for precise separation, identification, and quantification of compounds.
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Frequently Asked Questions
The system features a gradient pumping system, allowing precise control of solvent composition for better separation and flexibility in method development.
Yes, it is a fully automated system with gradient capabilities and real-time monitoring, helping streamline workflows and reduce manual intervention.
The system is equipped with a deuterium lamp detector, which provides reliable UV detection across a wide wavelength range.
It includes advanced, user-friendly software for real-time monitoring, data analysis, and system control—suitable for both routine and advanced users.
Yes, the system provides high sensitivity and low detection limits, making it effective for analyzing trace-level compounds.
Definitely. It operates at high pressure, ensuring stable performance and compatibility with demanding chromatographic methods.
Liquid Chromatography is an analytical technique used to separate, identify, and quantify components in a liquid sample. It involves passing a liquid (mobile phase) through a column filled with a stationary phase.
Usually 25 to 60°C, but during high-temperature our LC can operate up to 80 to 90°C.
It depends on use, sample cleanliness, and performance. Signs of deterioration include: Loss of resolution, Pressure increase and Peak shape distortion.
High-precision autosamplers reduce variability in injection volume. Essential for quantitation and reproducibility in high-throughput environments.
Yes. Most common couplings are LC-MS (Mass Spectrometry), LC-NMR (Nuclear Magnetic Resonance), and LC-FTIR (Fourier Transform Infrared Spectroscopy).
Pump system: Quaternary
Pump Flow Rate: 0.001 to 10.000mL/min, 0.001mL
