PicoRaman Spectrometer
Description
Fluorescence emission is seen as the main challenge in Raman spectroscopy. The patented Timegated® technology solves this problem. PicoRaman has sub-nanosecond pulsed excitation and a time-resolved single-photon counting detector, enabling effective and real fluorescence rejection making both quantitative and qualitative analyses more accurate and reliable. Spectral analysis becomes more specific and precise as fluorescence is no longer a limitation.
PicoRaman Spectrometer
Specifications |
|
|---|---|
| Excitation Wavelength: | 0.1 nm |
| Raman Shift Range: | -550--2500cm^-1 |
| Spectral Resolution: | 5 cm^-1 |
Features
Highly specific chemical information
Concentration quantification
Real-time
On-site
Easily transportable
No sample preparation
Non-destructive analysis Reliable
User-friendly
OEM-modules can be installed as part of the machines and processes
For pricing, technical or any other questions please contact the supplier
- No registration required
- No markups, no fees
- Direct contact with supplier
Contact Supplier
How to order?
-
Ships from:
Finland
-
Sold by:
-
On FindLight:
External Vendor
Claim TimeGate Instruments Page to edit and add data
Frequently Asked Questions
The PicoRaman spectrometer uses patented Timegated® technology with sub-nanosecond pulsed excitation and a time-resolved single-photon counting detector to effectively reject fluorescence, making analyses more accurate and reliable.
The PicoRaman spectrometer can be used in a wide range of application areas, including catalysis, metallurgy, and combustion research. It is also used in proven commercial applications in the chemical and mining industries.
The PicoRaman spectrometer provides highly specific chemical information, allows for concentration quantification, is real-time and on-site, easily transportable, requires no sample preparation, and provides non-destructive analysis. It is also reliable and user-friendly.
The PicoRaman spectrometer has a spectral resolution of 5 cm-1, a spectral range of -550 - 2050,/uni00A00 - 2500 cm-1, and uses a CMOS SPAD array with single photon counting. It also has a picosecond pulsed laser with a spectral line width of < 0.1 nm and a pulse width of < 150 ps.
The main challenge in Raman spectroscopy is fluorescence emission.