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MSE PRO Inductively Coupled Plasma Optical Emission Spectrometer
SKU: MA2689
MSE PRO™ Inductively Coupled Plasma Emission Spectrometer
Overview
The Inductively Coupled Plasma Emission Spectrometer (ICP-OES) is a professional laboratory instrument designed for high-precision trace element analysis, capable of detecting up to 70 elements with rapid testing speeds and low detection limits. Widely used in industries such as rare earths, silicon, petrochemicals, metal smelting, and environmental testing, as well as in fields like geological research, drug safety, and experimental studies, the ICP-OES is equipped with advanced features for optimal performance. It utilizes high-sensitivity photomultiplier tubes as detectors, a solid-state RF generator with automatic tuning and matching technology, and a high-sensitivity sampling system featuring a patented dual-barrel atomization chamber and high-efficiency atomizer. Additionally, the system includes a dedicated circulating cooling water system, an argon gas conduit, and a cooling water pipe, making it a versatile and reliable instrument for multi-elemental analysis across various applications.
Key Features
- Multiple Element Testing: Capable of measuring over 70 elements, including all metallic elements and the majority of non-metallic elements.
- Simultaneous Multi-Element Analysis: Performs tests for all elements in a single run, providing results instantly.
- High-Speed Analysis: Achieves a testing rate of approximately 5 elements per minute, with the potential to expand up to 10 elements per minute.
- Low Detection Limits: Detects most elements in solution samples at concentrations as low as the ppb level.
- Wide Linear Range: Covers up to 5–6 orders of magnitude, enabling simultaneous analysis of elements with both high and low concentrations.
- Minimal Chemical Interference: Virtually free of chemical interference, with real-time background correction for enhanced accuracy in test results.
Specification
| Main technical parameters | |
| Observation system | desktop, plasma vertical observation system |
| Precision | 2ppm mixed multi-element solution, RSD≤ 1.5% |
| Stability | 2 hours RSD < 2.0% |
| The detection limit meets the A-level requirements of the national standard | |
| Flame adjustment | The plasma flame can be adjusted in three dimensions: front, back, up, down, left, and right (controlled by a computer) |
| Injection system | |
| Torch tube | integrated integrated integrated quartz torch tube |
| Atomizer | Efficient concentric nebulizer, injection speed 2ml/min |
| Atomization chamber | Patented extended atomization chamber, optional with swirl atomization chamber and hydrofluoric acid resistant atomization chamber. |
| Split sampling system for real-time observation of sample injection status | |
| The mass flow controller controls the argon flow rate, which is continuously adjustable and provides real-time numerical feedback | |
| Peristaltic pump fully automatic five channel sixteen roller shaft, continuously adjustable speed | |
| RF generator and plasma | |
| Frequency | 27.12MHz Frequency stability ≤ 0.01% |
| Type | Solid state high-frequency RF generator, fast water cooling, automatic tuning |
| Power | 500W~1600W, continuously adjustable, with an adjustment accuracy of< 1 W, power stability: < 0.01% |
| Using 99.99% argon gas | |
| Equipped with reverse power protection function for RF power supply | |
| The ignition of plasma is fully automatic control | |
| Optical system | |
| Optical stability | designed on the same platform as the injection system |
| System type | Cheney Turner type (C-T type), focal length 1000mm |
| Constant temperature of the optical system, temperature stability | ±0.1°C |
| Minimum step distance of scanning motor | < 0.0004nm |
| Resolution ratio | <0.005nm (4320 line grating);<0.008 nm (3600 line grating); <0.015 nm (2400 line grating); |
| Wavelength range | 190-460nm (4320line grating); 190-500nm (3600 line grating); 190-800nm (2400line grating); |