Our microRAMAN, handheld Raman spectrometer, identifies substances based on their unique molecular fingerprint. Thanks to the 785nm laser delivering up to 470 mW optical power and the latest advanced CMOS sensor, which provides high sensitivity without cooling, you can rapidly identify an unknown substance without unpacking it. In addition, you simply choose the appropriate adapter and measure directly through the wall of the packaging.
The microRAMAN device directs a laser at the sample and then analyzes the scattered light to determine its chemical composition. As a result, it enables accurate identification without altering or destroying the material.
Why to choose
the microRAMAN?
Modern hardware supports computational power
The microRAMAN combines portability, accuracy, and speed in a single device, making it a reliable solution for field identification. In addition, our handheld spectrometer features the most modern hardware with high software and hardware performance. Thanks to RS DYNAMICS’s latest software update, you can measure either a single substance or mixtures. To achieve the best results, simply subtract the spectrum of the packaging material.
Evaluation of measurement
The microRAMAN automatically compares your measurement with its internal spectral library, which contains more than 24,000 items. In addition, you can also create and use your own custom library for even greater flexibility.
Optical power
With the 785nm laser delivering up to 470 mW optical power, you can identify the unknown substance without unpacking. Just choose the adapter and measure through the wall of packaging.
Delivered in heavy-duty sealed case with everything you need you are packed in a few seconds
Document everything
With build-in camera you can simply photoshoot your sample and assign it to your identified spectra. Fill it with your description and create report file. This simply made dataset can be stored in device and downloaded later
785 nm vs 1064 nm Raman Spectroscopy:
The Ultimate Balance of Sensitivity and Performance
785 nm handheld Raman spectrometer is preferred solution over 1064 nm because it provides a stronger signal and better sensitivity. The shorter wavelength generates more intense Raman scattering, resulting in a higher signal-to-noise ratio and faster measurements.
While 1064 nm reduces fluorescence more effectively, it produces a much weaker Raman signal, which can lead to longer acquisition times and lower spectral detail.
In summary, 785 nm offers a balanced compromise—sufficient fluorescence suppression with significantly better performance for most practical applications.
Specifications
Scan time with identification
Operating temperature range
Storage temperature range
Radioactive or toxic materials inside
