Difference between SAED pattern and XRD Pattern

In summary, the conversation discussed the presence of reflections in the SAED pattern but not in the powder XRD pattern, specifically in regards to FeCo bcc alloy nanostructures. It was explained that multiple scattering is common in electron diffraction and less in x-ray diffraction, leading to the presence of certain reflections such as (100), (111), and (221) being forbidden in BCC structures. The presence of these reflections can be amplified in electron diffraction due to multiple scattering and can be enhanced at surfaces. The suggestion of using an anomalous scattering experiment at the Fe or Co K-edge was also mentioned.
  • #1
yasir.ustb
12
0
Hello every one!

Why in SAED pattern some reflection are present but not in the powder XRD pattern? For example in my particular experiment FeCo bcc alloy nano structures, the XRD pattern contains only three reflection (110), (200) and (211). But in SAED pattern there are , reflection of (111), (100), (122), (211), (110) and (200).

Please explain why it is so?

Thanks a lot in advance
 
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  • #2
Multiple scattering is very very common in electron diffraction, but much less in x-ray diffraction (especially powder XRD).

(100), (111) and (221) are forbidden for BCC and therefore do not show up in normal x-ray diffraction.

FeCo can order in a B2 (CsCl-type) structure with Fe at the corner and Co in the center (or vice versa, same structure).
Then the structure is simple cubic and these reflections are allowed (but weak). Multiple scattering will amplify the intensity of these weak reflections, i.e. they would show more strongly in electron diffraction than x-rays.

This order is enhanced at surfaces (see article cited below). Nanoparticles being almost entirely surface, one would expect such order to be present. If you have access to a synchrotron, then trying an anomalous scattering experiment at the Fe or Co K-edge could be interesting.

http://prl.aps.org/abstract/PRL/v78/i20/p3880_1
 
  • #3
Thank you very much Quak, I have understand it now clearly,
Also the article you suggested is very interesting, Once again thanks.
 

1. What is the difference between SAED pattern and XRD pattern?

The main difference between SAED (Selected Area Electron Diffraction) pattern and XRD (X-Ray Diffraction) pattern is the type of radiation used. SAED pattern is obtained by directing a beam of electrons onto a sample, while XRD pattern is produced by exposing the sample to a beam of X-rays. Another difference is the scale of the patterns, as SAED patterns are typically on a smaller scale than XRD patterns.

2. How are SAED patterns and XRD patterns used in material analysis?

Both SAED patterns and XRD patterns are commonly used in material analysis to identify and study the crystal structure of materials. SAED patterns are often used in the analysis of thin films, while XRD patterns are more commonly used for bulk materials. The patterns can provide information about the lattice structure, crystal orientation, and composition of the material.

3. Can SAED patterns and XRD patterns be used interchangeably?

No, SAED patterns and XRD patterns cannot be used interchangeably as they provide different types of information. SAED patterns are used to study the diffraction of electrons, while XRD patterns are used to study the diffraction of X-rays. Additionally, the sample preparation and experimental conditions are different for each technique.

4. Which technique is more suitable for studying nanomaterials?

SAED patterns are more suitable for studying nanomaterials as they can provide information about the crystal structure of very small particles, typically in the range of a few nanometers. XRD patterns are limited in their ability to analyze nanomaterials because of the size of the X-ray beam and the requirement for a large amount of material.

5. What are the advantages and disadvantages of using SAED patterns and XRD patterns?

The advantage of SAED patterns is their high spatial resolution, which allows for the analysis of very small areas of a sample. However, this also means that a larger area of the sample must be analyzed to obtain a representative pattern. XRD patterns have a lower spatial resolution, but they can provide information about the bulk crystal structure of a material. The disadvantage of XRD patterns is that they require a large amount of material and may not be suitable for analyzing nanomaterials.

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