Any Query ?
Inductively Coupled Plasma Emission Spectrometer NICP-100
Inductively Coupled Plasma Emission Spectrometer NICP-100 is an analytical spectrometer that uses plasma as a source to desolvate, ionise, and excite the sample and employs optical emission for sample analysis and is spotted by their characteristic emission lines and quantified by the intensity of the same lines. Mainly used for liquid samples, it is used for simultaneous, sequential analysis of multiple elements with few chemical interference or ionization interference. It is a very sensitive technique for routine analysis of liquid samples as well as materials.
Sampling time | 100ms - 10s |
Photomultiplier tube | R212UH |
Sampling System Specification: - Quartz tubes | 20mm three concentric type |
Nebulizer | 6mm, coaxial type |
Atomization chamber | 35mm double canister type |
Plasma gas flow | 100-1000L/h, 1.6-16L/min |
Auxiliary gas flow | 6-60L/h, 0.1-1L/min |
Carrier gas pressure | 0-0.4 Mpa |
Radio frequency generator work frequency | 40 MHz |
Frequency stability | < 0.1% |
Power output | 700-1600W |
Power output stability | < 0.3% |
Power supply | 220V; 25A |
Spectrophotometer system | Czerny Turner type |
Focal length | 750mm,1000mm |
Grating | Ion etch holographic grating |
Resolving power | ≤ 0.008nm |
Wavelength Range | 180~800nm |
Scanning wavelength range | 3600line/mm-195 nm-500nm; 2400line/mm -195nm-800nm |
Scan step distance | 0.0006nm |
Scan repeat quality | ≤ 0.0006nm |
Entrance slit | 20µm |
Exit slit | 25µm |
Lens | ф30,1:1imaging |
Measurement accuracy | Average relative standard deviation RSD ≤1% |
Measurement stability | Average relative standard deviation RSD ≤2% |
Dimensions (L×W×H) | 1560 × 660 × 720 mm |
Weight | 200kg |
It is widely used for trace analysis and assessment of various samples in environmental testing, food and drinks, minerals, glass, ceramics and refractories as well as in healthcare.
Accessories No | Name |
1 | RF generator |
2 | Sample introduction system (Concentric quartz tubes, nebulizer, atomization chamber, sealed water bottle) |
3 | Scanning spectrophotometer |
4 | Inspecting system |
5 | Operating data analysis software |
Accessories No | Name |
1 | Automated cooling system |
2 | High-precision alternating current (10KW) |
3 | Computer |
4 | Printer |
5 | Line mercury-arc lamp |
Wavenumber Range | 7800 ~ 350 cm-1 |
Resolution | 1 cm-1 |
Signal Noise Ratio | 30000:1 (4cm-1; sample and background scan for 1 min 2100cm-1) |
Detector | Pyro electric detector |
Excitation wavelength | 785 nm |
Spectral resolution | 4 cm<sup>-1</sup> |
Spectral range | 250-2700, 200-3500, and 200-4300 cm<sup>-1</sup> |
Maximum laser output | 500mW |
Wavelength range | 200~800 nm |
Wavelength accuracy | ≤ 0.4 nm |
Wavelength repeatability | ≤ 0.2 nm |
Stray light | ≤ 10<sup>-3</sup> |
Detection method | Energy dispersion X-Ray fluorescence |
Accuracy | ±0.01% |
Machine resolution | 129 ± 5eV |
Measuring range | 1% - 99.999% |