SUPEC 7000 Series Automatic Heavy Metal Analysis System Introduction
The SUPEC 7000 Series Automatic Heavy Metal Analysis System combines automatic digestion with advanced ICP-MS analysis to achieve one-click sample digestion and sample analysis.
SUPEC 7000 series realizes a series of cumbersome processes such as automatic acid addition, heating, capping, capping, constant volume, mixing, automatic sample introduction, automatic startup of analytical instruments, automatic report, automatic shutdown, etc. The repetitive work is liberated, while the fully automated operation minimizes human error. Features
1. Sample pretreatment involves a series of cumbersome processes such as adding acid and heating, and handing the pretreatment process to the system without human intervention, so that the parallelism of the experimental results is better and the error is smaller;
2. The analysis and detection part is based on the high-end ICP-MS instrument, which ensures the analysis ability of trace elements;
3. Fully enclosed environment, air filtration ensures clean environment, acid mist is discharged by system discharge, no need for experimenters to participate, the experimenter is away from the ionizing radiation and ultraviolet radiation of the analytical instrument to ensure the safety of the experimental personnel. Technical Parameters
Sensitivity (Mcps / mg L-1): U≥300
Detection limit (ng L-1): U≤0.1
Resolution (unit mass resolution, amu): 0.1-2.0
Instrument type: quadrupole mass spectrometry
Introduction
The SUPEC 7000 Series Automatic Heavy Metal Analysis System combines automatic digestion with advanced ICP-MS analysis to achieve one-click sample digestion and sample analysis.
SUPEC 7000 series realizes a series of cumbersome processes such as automatic acid addition, heating, capping, capping, constant volume, mixing, automatic sample introduction, automatic startup of analytical instruments, automatic report, automatic shutdown, etc. The repetitive work is liberated, while the fully automated operation minimizes human error.