Product overview: The automatic sampling system and the liquid cooling control system have been developed independently to realize the full automation of capillary electrophoresis technology from sample injection to separation analysis. Combined with the advanced valve injection technology abroad, a new solution to the accurate quantitative problem of the traditional capillary electrophoresis technology is found, which makes the qualitative accuracy and quantitative repeatability of capillary electrophoresis technology enter a new realm. Characteristics: 1,Patented valve injection technology to realize the sample ring of 4nL or 10nL of nanolabel injection; 2, Excellent accuracy and precision performance, subversive to your CE imagination; 3, Equipped with liquid column temperature box 4-50 ℃) to ensure that the experimental results are stable, repeated and reliable; 4, Equipped with ultraviolet / visible light (UV / V), laser induced fluorescence (LIF), evaporative light scattering (ELSD), electrochemical (ECDT), mass spectrometer (MS); 5, Easy to operate the analysis platform. Professional software provides quick guidance to the operator in the process of installation and separation analysis. Technical parameters: Solvent conveying system Flow range: 0.3 / 10 μ L/min Flow accuracy: 0.1% Flow accuracy: ±2% UV / VIS detector Light source: deuterium lamp Wavelength range: 190,700 nm Wavelength accuracy: ±1 nm Wavelength repeatability: ±0.1 nm Band width: 8 nm Baseline noise: 5 × 10-6AU Baseline drift: 2 × 10-4 AU/h Minimum detection limit: 1.0 × 10-6 g/mL Automatic sampling system Sample size: 10 nL Injection accuracy: 1.0% High-voltage power supply Voltage range: 0 ~ ±30 kV The current range is 100 μ A, 100 μ A, and 300 μ A, respectively. Voltage stability: ≤ 1.5 ~ 3 min) Working environment requirements Working environment temperature: 1530 ℃ Storage environment temperature: 40 ℃ Relative humidity: < 90% Power supply: 220V ±10% Power frequency: 50 ±0.5 Hz
Product overview: The automatic sampling system and the liquid cooling control system have been developed independently to realize the full automation of capillary electrophoresis technology from sample injection to separation analysis. Combined with the advanced valve injection technology abroad, a new solution to the accurate quantitative problem of the traditional capillary electrophoresis technology is found, which makes the qualitative accuracy and quantitative repeatability of capillary electrophoresis technology enter a new realm.
