Liquid Chromatography CLLC-602 provides high-precision separation and analysis of liquid-phase samples with accuracy. It features an advanced high-pressure pump system for reproducible flow rates. Integrated with gradient elution capabilities to enable separation of complex mixtures. Built in with multiple detectors to accommodate diverse analytical needs. Our Liquid Chromatography have applications in pharmaceutical analysis, food safety, biotechnology, and chemical research.
| Pump System | Isocratic |
| 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 | 191 nm to 700 nm |
| Wavelength Accuracy | ±1 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) |
| Pump Dimensions | 470 × 380 × 300 mm |
| Detector Dimensions | 470 × 380 × 400 mm |
| Pump Net Weight | 8 kg |
| Detector Net Weight | 8 kg |
| Pump Gross Weight | 10 kg |
| Detector Gross Weight | 10 kg |
| Total Gross Weight | 10 kg |
Inbuilt deuterium lamp
Intelligent fault detection
Elution capability
Intuitive touchscreen interface
Automated sample injection
Liquid Chromatography CLLC-602 is suitable for analysis of liquid-phase samples in food safety testing, biotechnology, chemical industry, medical research and forensic science.
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Frequently Asked Questions
It utilizes an isocratic pump system, which provides a constant solvent composition throughout the run—ideal for routine and targeted analyses.
Yes, the system is integrated with gradient elution capabilities, making it suitable for separating complex sample mixtures with varying polarities.
It covers a broad wavelength range of 191 nm to 700 nm, making it capable of detecting a wide variety of analytes in different sample types.
Yes, it is designed with user convenience in mind, including automated features, reliable software, and real-time monitoring, making it suitable for both novice and expert users.
The system delivers excellent sensitivity, capable of detecting trace-level compounds accurately, even in complex matrices.
This system is ideal for use in pharmaceutical analysis, food safety testing, biotechnology, and chemical research, offering reliable results across different fields.
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
