A new Raman Video Microscope Sampling System has been developed for precision sampling during Raman spectroscopy analysis. The Raman analysis of grain kernels using this system reveals distinct Raman shifts, which would otherwise be washed out by a strong fluorescence background.

 

B&W Tek’s new product - Raman Video Microscope Sampling System, is a video microscope with integrated cameraLED illuminator to allow precision spot sampling. Focusingpositioning of the excitation laser beam is facilitated by the video camera which provides imaged details of the sampling spots. The sampling image can be easily recordedsaved, as well as included in the test report together with measured spectra through BWSpec^™ software, which is the operational software for all B&W Tek Raman spectrometers. The system provides both bright fielddark field illuminations to optimize the illumination required for various sample surfaces. It is compatible with B&W Tek’s complete line of laboratoryindustrial Raman probes. When coupled with B&W Tek’s portable Raman spectrometers, this video microscope system provides the advantages of a Raman microscopy at a fraction of the cost of most research instruments.

 

The application discussed in this paper is the Raman analysis of a grain kernel. Without the Video Microscope Sampling System, the Raman signal is overwhelmed by the strong fluorescence background generated from the grain bran (thickness 60 ~ 70 µm) ¹. The Raman analysis of a sliced cross section of the kernel under the Video Microscope Sampling System enables the identification of specific components, such as starchlipids, inside the kernel.

 

The experimental setup is shown in Figure 1 (a). The Raman analysis was done using B&W Tek’s MiniRam^™ Spectrometerwith a 785 nm excitation laser. The laser spot size is about 90 µm in diameter with 20X objective lens. Samples were prepared by polishing a cross section of the grain to generate a surface suitable for microscopic imaging. The microscope image captured through BWSpec^™ is shown in Figure 1 (b).

 

The Raman analysis results are shown in Figure 1 (c). Raman analysis of the cross section of the grain kernel using the Video Microscope Sampling System shows distinct Raman shifts associated with starchlipids, while the analysis on a whole grain kernel without Video Microscope Sampling System results in Raman peaks washed out by the fluorescence background generated from the grain bran.

 

B&W Tek’s Video Microscope Sampling System, when coupled with B&W Tek’s Raman spectrometers, can direct laser excitation on the specific area or specific structure of the sample, which provides the advantages of choosing an area to be analyzed, or avoiding areas so as to minimize fluorescence.

Figure 1. (a) Experimental set up. (b) Grain kernel microscopic image captured through BWSpec^™. (c) Comparison of Raman spectrum of a grain kernel using B&W Tek’s MiniRam^™ under Video Microscope Sampling System (upper)a Raman spectrum of a whole grain kernel using B&W Tek’s MiniRam^™ but without using Video Microscope Sampling System (lower).

1. Kulp K. & Ponte J. G., Handbook of Cereal ScienceTechnology, (CRC Press, 2^nd edition, 2000), pp. 2.

 

19 Shea Way

Newark, DE 19713, USA

Tel: 302-368-7824

Fax: 302-368-7830

Email: info@bwtek.com

Website: www.bwtek.com