The LabICP1000 inductively coupled plasma optical emission spectrometer (ICP-OES) features extremely high resolution, allowing complete separation of even highly complex spectral lines of rare earth elements, avoiding spectral interferences. It is particularly suitable for analysis of rare earth elements and rare earth permanent magnet materials. Additionally, it can be widely applied in fields such as food, environmental monitoring, geology and mining, and non-ferrous metal smelting.
◆ Extremely high resolution – Even highly complex spectral lines of rare earth elements can be fully separated, avoiding spectral interferences and ensuring the accuracy of analytical data.
◆ Closed-loop controlled RF generator high-voltage supply – Compared with traditional high-voltage systems using step-up transformers and high-frequency choke coils, the power control precision is improved to better than 0.1%.
◆ High-precision spectroscopic system:
Reflective spectroscopic design avoids introducing additional chromatic aberration.
Mechanical control precision ensures accurate spectral positioning.
High-resolution long-focus optical path design achieves excellent signal-to-noise ratio and minimal matrix effects.
◆ Thermostatically controlled optical chamber – Enhances measurement stability; after purging with argon, high-precision measurement of S (180 nm) and Sn (190 nm) is possible.
◆ Dynamic linear range of 5–6 orders of magnitude – Suitable for elemental analysis from trace to major concentrations.
◆ Measurement accuracy and detection limits – Achieves ppb-level sensitivity.
◆Protection systems – Includes cooling water protection, argon protection, over-voltage protection, over-current protection, and arc-extinguishing protection.
