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Raman Basics

Guide to Raman Imaging

We briefly explain the fundamentals of Raman imaging and focus on the basic questions about chemical 3D imaging.

Raman Imaging Basics

Getting started

What is Raman imaging?

The Raman spectroscopy basics

Raman imaging is build upon the combination of two powerful analytical techniques: Raman spectroscopy and microscopy.

In Raman spectroscopy, the information of inelestically scattered monochromatic (laser) light is used to investigate the chemical nature of matter. This process is non-destrucive and even non-contact by default.

The Raman microscopy basics

Traditionally, optical microscopy deals with very small samples. Imagine using a 100 x objective to analyse a particle that is 1 µm in diameter.

If you implement a Raman spectrometer in said microscope you could now get a chemical analysis of this small particle. If you combine this spectral data with spatial information in two or three dimensions, we speak of Raman imaging.

About Raman imaging

Now, you take that small measurement spot of a microscope, and sequentially move the sample beneath the spot.

Depending on the step size of the stage, you are generating spatially resolved spectral information. And if you perform a measurement "grid" of e.g.
10 x 10 µm you now have generated what we call a Raman Image.

Getting into details

What is a Raman image?

A chemical image contains molecular information in each of its pixels. In a Raman image, these pixel are composed of complete Raman spectra. This means said image contains a lot of chemic interpretation of this spectral data, a false color image can be rendered to emphasize and characterize the sample’s properties like chemical structure or composition.

In order to answer certain analytical questions, the spectral data can be interpreted in many ways. One typical application, for example, is the creation of false-color images to emphasize and characterize the properties of a sample. This provides a clear representation of the chemical structure or composition of the sample.

Getting into details

How is a Raman image created?

This video shows the procedural creation of a Raman image with the SENTERRA II Raman microscope.

Mostly Raman microscopes are used for the creation of Raman images and the acual procedure is very simple. Raman spectra are acquired point by point within a defined area with known distances adding spatial information to the Raman data. In this process, the laser is focused on a single point on the sample, while the sample is moved beneath the laser bit by bit, until the whole area of interest is "mapped"

The acquired spatial information can be one-, two-or three-dimensional, and thus even also allows chemical exploration into the sample! This way, exciting analytical questions can be answered, including statements about the homogeneity of coatings, the distribution of components or information about particles and other contaminants.

 

Raman Imaging FAQ

The last straw

Frequently asked questions about Raman imaging

 

What is the spatial resolution of a Raman microscope?

The confocal optics in the Raman microscope filters the collected Raman signal. Therefore, the confocal pinhole controls the size of the spot that Raman signal is collected and improves spatial resolution.

The spatial resolution of a well-designed confocal Raman microscope is eventually limited by the diffraction of light:

  • dradial = 0.61 · λ / NA
  • daxial = 1.4 · λ / NA

Therefore, confocal Raman microscope can accomplish analysis and characterization of sample features down to approximately half micrometer.

What is Raman imaging?

Raman imaging is a technique that generates images with both spectral and spatial information. Raman spectra are collected from various spatial positions, and then each spectrum is reduced to only one value for the corresponding pixel.

The most common method is using the peak intensity, presenting chemical distribution and concentration. Intensities of multiple peaks, peak shift, peak ratio, peak width etc. are also used for generating Raman images in various scenarios. The pixel values are commonly displayed as grayscales or faked colors.

 

 

How long does it need for a Raman image?

The measurement of a Raman image includes acquiring many Raman spectra. Therefore, for an image that contains thousands or even millions of Raman spectra, the total measurement time could be significantly long.  

Sensitivity is of key importance in generating Raman images, which allows a short acquisition time for each spectrum. Thus, selection of target sample, laser power, and optical efficiency should be optimized for faster imaging acquisition.

Can a Raman microscope measure features below the surface?

Yes. The confocal Raman microscope has diffraction-limited spatial resolution on both radial and axial directions. Therefore, depth profiling and 3D Raman imaging are available for analyzing chemical distributions under the surface on condition that laser and Raman scattering are not strongly absorbed by the material.

Can a Raman microscope be used for analysis of liquids?

 Yes. As one of the major advantages of Raman spectroscopy comparing to FTIR, water has very low Raman signal and compounds dissolved in water can be measured without strong interference.

The liquid droplet can be simply placed and measured on a microscopic slide. For evaporating samples, quartz cuvette or concave slides with quartz cover glass allow Raman measurements of liquid in closed container, without contribution of background signal.