ICPMS-2030 Inductively Coupled Plasma Mass Spectrometer
Outstanding Reliability, Exceptional Ease of Use, and the Industry’s Lowest ICP-MS Operating Costs
Featuring unique analysis assistant functions and incorporating proprietary cost-reducing capabilities, the ICPMS-2030 provides efficient, sensitive trace element analysis for applications in multiple industries. These include environmental testing, food and agriculture studies, cannabis testing, and pharmaceutical work for analysis of toxic elements according to USP regulations. Simplify your ICP-MS analysis, and obtain reliable trace-level results with confidence.
Fast, Easy Method Development
The system’s Development Assistant automatically selects the optimal mass and internal standard for the target elements, and suggests concentration ranges for calibration curves, allowing any ICP-MS user to develop reliable methods with ease.
Automated Post-run Diagnostics
The Diagnosis Assistant identifies the presence or absence of mass interference based on qualitative analysis to quickly generate reliable ICP-MS results.
The optimized collision cell achieves superior ICP-MS sensitivity through efficient molecular ion removal and high elemental ion transmission using only helium gas.
Reduced Running Costs
The ICPMS-2030 inductively coupled plasma mass spectrometer significantly reduces operating costs utilizing Shimadzu’s proprietary technology. This includes:
- Mini-Torch system, which effectively reduces the amount of argon gas needed to generate plasma (consumes 2/3 the argon gas as conventional plasma torches)
- ECO mode, which minimizes the flow rate and power consumption during standby
- Compatibility with 99.95% purity argon gas, instead of the more expensive 99.999% argon gas generally used
Simultaneous Analysis of Major and Trace-level Components
Nine orders of magnitude dynamic range with a secondary electron multiplier, enabling ICP-MS analysis of major and trace-level components in the same sample
On-Line Inter-Element Correction (IEC)
Shimadzu's proprietary On-Line IEC corrects for spectral interference that could not be eliminated with the collision cell. There's no need for complicated assessments of ICP-MS conditions, as with reaction cell technology.
Located behind the collision cell, the focusing lens improves ion transmission efficiency and eliminates photoelectric effects, optimizing the ICPMS-2030’s compatibility with laser ablation systems.
Easy-to-Maintain Interface and Plasma Torch
Allows all parts to be removed and installed without the need for tools, resulting in greater uptime.