Inductively Coupled Plasma Emission Spectrometer NICP-102 Catalog

Inductively Coupled Plasma Emission Spectrometer NICP-102

Overview

Inductively Coupled Plasma Emission Spectrometer NICP-102 offers a wavelength range of 160 to 1000 nm, enabling full spectrum multi-element analysis. This solid-state RF power system ensures consistent plasma performance for high accuracy. Our advanced grating design with high optical resolution improves detection limits for trace elements. It is equipped with a double-barrel spray chamber, which ensures stable operation. This nitrogen-purged optical chamber delivers exceptional reliability for demanding analytical tasks.

Specifications:

Type	Full Spectrum Direct Reading ICP-OES
Wavelength Range	160 to 1000 nm
RF Power Circuit	Solid-state RF power supply with auto-matching
RF Frequency	27.12 MHz ± 0.05%
Frequency Stability	< 0.1%
Power Output Stability	< 0.3%
Escaped RF Radiation	30 cm away, Electric field E < 2 V/m
Sampling System	Torque tube: Three concentric, OD 20 mm
Torch Working Coil	Inner diameter: 25 mm
Nebulizer	Coaxial type, Outer diameter 6 mm
Spray Chamber	Double-barrel atomizing chamber, OD 34 mm
Gas Flow Control	Plasma Argon: 100 to 1000 L/h (1.6 to 16 L/min) Auxiliary Argon: 10 to 100 L/h (0.16 to 1.6 L/min) Carrier Argon: 10 to 100 L/h (0.16 to 1.6 L/min)
Pressure Valve	0 to 0.4 MPa
Cooling Water	Temp: 20 to 25°C; Flow: > 5 L/min; Pressure: > 0.1 MPa
Grating	Middle step grating, 52.67 lp/mm, 64° sparkle angle
Numerical Aperture	Fs 8
Resolution	0.0065 nm at 200 nm
Astigmatism	< 2 ppm at As 189.042 nm
Light Chamber	Constant temperature: 35 ± 0.1°C Nitrogen purging: 1.8 to 3.8 L/min
Detector	27.6 mm × 27.6 mm, 1024 × 1024 detection units
Reading Mode	NDRO, FF, RAI
Power Consumption	800 W to 1500 W

Features:

> Auto-Matching Circuit
> Wide Wavelength Range
> Advanced Grating Design
> Coaxial Nebulizer System
> Constant Temperature Control
> High Stability Detector

Applications:

Inductively Coupled Plasma Emission Spectrometer NICP-102 used for high-precision multi-element analysis in complex matrices through advanced optical emission technology. It is applied in environmental testing, petrochemical analysis, metallurgical labs, pharmaceutical research, and quality control sectors.

Unit 2D Station House, 1 Pembroke Broadway, Camberley, Surrey GU15 3XD, United Kingdom.
Email: info@labnics.com | Website: www.labnics.com