Built Different. Engineered to Perform.
Four breakthrough technologies work together to deliver the world's most efficient nitrogen plasma spectrometer — no argon, no chiller, no compromises.
TECHNOLOGY 01
CERAWAVE™
Revolutionary Patented Technology for Efficient Plasma Generation
- Wireless load coil with ceramic waveguide — Innovative ceramic waveguide design transfers microwave energy directly into the plasma with minimal loss.
- 99% coupling efficiency — Virtually no energy wasted as heat during the plasma generation process.
- Non-corrosive, non-consumable — The Cerawave ring does not corrode and requires no scheduled replacement.
- No external water chiller required — Eliminates the flood of excess heat and noise that conventional chillers introduce to the laboratory.
- Reduced energy and A/C demand — A critical advantage in remote and resource-limited installations.
99%
Coupling efficiency
0
Water cooling required
∞
Consumable lifespan
TECHNOLOGY 02
N₂ Plasma
Superior sample matrix tolerance from the world's only N₂ ICP source
- Highest energy coupling efficiency — Produces a robust plasma capable of analyzing difficult samples with high solids and organic solvent matrices.
- Extended component lifetime — Microwave power generation components greatly outlast RF generators used with conventional Ar plasma systems.
- Significant cost savings — N₂ is substantially less expensive than Ar, reducing ongoing operational costs.
- Local N₂ generator compatibility — Opens significant ICP application opportunities where Ar supply is unavailable or cost-prohibitive.
Lower
Cost vs. Argon
Local
N₂ generation possible
TECHNOLOGY 03
High Resolution Spectrometer
Compact high-performance Echelle design
CAMERA
4 MP sCMOS
State-of-the-art scientific CMOS sensor delivers exceptional sensitivity and dynamic range for trace-level elemental detection.
WAVELENGTH
194–625 nm + 766 nm
Simultaneous full-range spectrum capture in a single measurement with every sample injection.
RESOLUTION
5–30 pm; <7 pm @ 200 nm
Exceptional resolving power minimizes spectral interferences and enables confident peak identification.
COUPLING
Fiber Optic Interface
Stand-alone Echelle spectrometer coupled to the plasma source via fiber optic for flexible module positioning.
ACTIVEPEAK TRACKING
Automatically monitors N₂ background and actively tracks peak positions in real time — ensuring measurement accuracy under varying operating conditions without manual recalibration.
AIR-COOLED OPERATION
Operates under standard laboratory conditions with no special cooling infrastructure. Delivers consistent performance without complex environmental controls or supplementary equipment.
TECHNOLOGY 04
Radical Small Design
World's Smallest ICP-OES
- Compact footprint — Minimizes required laboratory bench space, fitting comfortably where full-size instruments cannot.
- Uncomplicated installation — Facilitates deployment in both typical laboratory environments and remote field locations.
- No chiller, no problems — Air-cooled operation eliminates the need for noisy, maintenance-dependent water chiller units entirely.
- Modular architecture — Separate plasma and spectrometer modules enable unique service support, with replacement units available for rapid swap-out to minimize critical downtime.
14 in
Depth (350 mm)
20.7 in
Width (525 mm)
22 in
Height (560 mm)
67 lb
Weight (30 kg)
TECHNOLOGY 05
RIS: Radom Intuitive Software
Easy to learn, powerful in practice
DESIGN FEATURES
- Simplified Architecture — Methods define operating conditions; Sessions manage running samples — a clean separation that speeds up daily workflows.
- Detailed Peak Viewing — Quick peak integration settings with a custom spectral database to aid peak selection and highlight potential interferences.
- Continuous N₂ Background Correction — Real-time background correction ensures accurate quantitation across the full analytical wavelength range.
- Automated Session Scheduling — Schedule multiple sessions with different samples and analytes; pause active runs to insert urgent samples, then resume seamlessly.
PERFORMANCE FEATURES
- Full Spectrum Data Capture — Post-processing on additional elements and emission lines without re-running samples — full flexibility after acquisition.
- Method of Standard Additions — Built-in MSA calibration mode for challenging matrices where external calibration is insufficient.
- Extended Linear Range — Cross-calibration across multiple emission lines extends the linear dynamic range for high-concentration samples.
- Autosampler Integration — Works seamlessly with a variety of autosamplers and valve systems for high-throughput, hands-free applications.