Raman Spectrometer in India | Micro Raman Spectrometer

TechnoS Instruments is a leading organization for Scientific instrument manufacturing and since its inception, it has been a reflection of customer satisfaction. TechnoS provides a one-stop solution to Raman Spectroscopy and Spectrometer Systems. Being a Make-in India Raman Spectrometer manufacturer, the customer will have a big and significant advantage of almost zero downtime apart from the cost advantage. Our team of qualified and determined scientists and engineers ensures the quality standard of each instrument.

CTR Series

Diamond Detection system

STR MPR Series

IndiRAM Handy-Handheld Raman Spectrometer

IndiRAM Raman Spectrometer (Industrial Grade, Research Grade)

PORTABLE SERIES

IndiRAM Raman Spectrometer For GEM Application

Indigenous Materials Characterization Lab (Raman Sampling)

Raman Spectrometer

Raman Spectrometer is a device used for Raman Spectroscopy. It is a non-destructive chemical analysis method which provides detailed information about phase and polymorph, chemical structure, crystal and molecular interactions. It is practically based upon the principle of interaction of light with the chemical bonds within a molecule. Raman is a light scattering technique, whereby a molecule scatters an incident ray of light from laser light source of high intensity. Most of the scattered light rays are at the same wavelength of colour as on the laser light source and doesn't provide any useful information which is called Rayleigh Scatter. However a small amount of light (typically 1/1000000%) is scattered at different wavelengths (or colours), which depend on the chemical structure of the analysis and this phenomenon is called Raman Scatter.

A Raman spectrum features a number of crests and troughs, depicting the intensity and wavelength site of the Raman scattered light ray. Each peak corresponds to a specific vibration of molecular bond, including discrete bonds such as C-C, C=C, N-O, C-H etc., and set of bonds such as benzene ring breathing mode, polymer chain vibrations, etc. Raman spectroscopy can be caste-of for microscopic analysis, with a spatial declaration in the order of 0.5-1 µm. Such analysis of rays is possible by using a Raman microscope. Raman microscope doublets Raman spectrometers to an ensign optical microscope permit Raman analysis with a microscopic laser spot and high magnification envision of sample. Raman micro-analysis is easy all you need to do is simply place the sample under the microscope, focus, and make a measurement.

A legit confocal Raman microscope can be used for the analysis of micron size particles. It can even be used for the analysis of different layers in a multi-layered trials (e.g., polymer coatings), and of contaminants and features underneath the surface of a transparent sample. Raman spectral images are generated by motorized mapping stages, which contain thousands of Raman spectra acquired from different sites on the sample. Erroneous colour images can be created based on the Raman spectrum which shows the distribution of individual chemical components, and variations in other effects such as polymorphism, stress/strain, and crystallite.

In General Raman spectrometer meter is suitable for analysis of following components:

Solids, powders, liquids, gels, slurries and gases.
Inorganic, organic and biological materials.

Pure chemicals, mixtures and solutions.
Metallic oxides and corrosion.

What is Single Raman Spectrometer?

Single cell Raman spectrometer (SCRS) may be defined as a non-invasive and label-free technology, allowing in vivo and multiple parameter analysis of solitary living cells. A single cell Raman spectrum usually contains quite 1000 Raman bands which give rich and intrinsic information of the cell (e.g. nucleic acids, protein, carbohydrates and lipids), reflecting cellular genotypes, phenotypes and physiological states. A Raman spectrum serves as a unique molecule of a single cell, helps in differentiating multitude cells including animal cells, bacterial and protestant without foregoing knowledge about the cells. However the major pitfall of SCRS is that the irrefutable fact that unconstrained Raman signals are naturally weak; this review discusses recent research progress in significantly enhancing and improving the waves of unconstrained Raman spectroscopy.

We take pride in ensuring the highest standard of our instruments. Precisely tested and manufactured to circumvent any error or inaccuracy of ramification while using Raman spectrometer. Our manufacturing facilities are certified for world-class manufacturing and quality standards. We have state-of-the-art technology backed by passionate engineering, quality talent and focus on accuracy and technology. Our motive is to provide not only the service but an experience too, for this we helps our patrons with easy access of technical support and also provide demonstration of Raman spectrometer if any customer demands for it. Our after sale services are very efficient, for any enquiry or complaint of the instrument, we promise to undertake all necessary technical support and replacement terms.

Managed and tested by dedicated and experienced team of engineers. We aim at providing the best quality of Raman spectrometer than any other manufacturing units. Our factory is set up in vast area with best quality and certified machinery. Each unit of our product is tested with highest quality standards and accuracy ensuring pinpoint quality experiments. Our unit takes pride in being the leading unit of Single Raman spectrometer Manufacturer of India.

We believe in utmost customer satisfaction as a result, we promise to provide the quality. Even if you find any inaccuracy in our product we will provide troubleshoot to rectify the problem or complete replacement of spectrometer.

In Raman spectroscopy, a sample is irradiated with a monochromatic laser beam which interacts with the molecules of sample and emanates a scattered light ray. The scattered light ray has a different frequency of scantling from that of the incident light (inelastic scattering). It used to erect a Raman spectrum. A Raman spectrum arises due to inelastic collision between molecules of sample and incident monochromatic radiation. When a monochromatic radiation pounds at the sample and it scatters in all directions after its interaction with sample molecules. Almost amount of scattered radiation has a frequency which is equal to frequency of incident radiation and constitutes Rayleigh scattering. Only a small proportion of scattered radiation has a frequency different from frequency of incident radiation and constitutes Raman scattering. When the frequency of incident radiation is higher than frequency of scattered radiation then the lines of stokes appear in Raman spectrometer. But when the frequency of incident radiation is lower than frequency of scattered radiation, anti-Stokes lines appears. Lastly the fraction of scattered radiation is usually resolute at right angle to incident radiation beam.