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MENA3100, 27/1-09, OBK X-ray diffractionXRD Røntgendiffraksjon Single crystalPowder.

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Presentation on theme: "MENA3100, 27/1-09, OBK X-ray diffractionXRD Røntgendiffraksjon Single crystalPowder."— Presentation transcript:

1 MENA3100, 27/1-09, OBK X-ray diffractionXRD Røntgendiffraksjon Single crystalPowder

2 Diffraction

3

4 Crystal Atomic arrangementLattice

5

6

7 X-ray diffraction Need X-rays Brehmsstrahlung = white radiation Characteristic X-rays Wavelenght CuK  1 = 1.54056 Å MoK  1 = 0.70930 Å CuK  1 = 1.54056 Å CuK  2 = 1.54433 Å CuK  = 1.5418 Å I(CuK  1 ) = 2·I(CuK  2 )

8 Need sample Single crystal Powder

9 Need experimental setup Diffractometer Bragg-Brentano geometry (Primary monochromator) (Secondary monochromator)

10 Want monochromatic radiation Brehmsstrahlung = white radiation Characteristic X-rays Monochromators: Many possibilities

11 Euclid, The Elements (300 B.C.) Proposition 21, Book III: The angles in the same segment of a circle are equal to another Johansson monochromator

12 Bragg-Brentano geometry The source S can be:

13 Need detector … Need some slits … S Sample Fixed slits: Smaler area at high angle  Smaller area at high angles Variable slits: Same area at all angles

14

15 The experiment Got some crystals Want a powder Gets lot of small crystals

16

17 Want powder Random orientation

18 The result The diffractogram Quartz (Don’t call it spectrum)

19 Why?

20 Identification PDF = JCPDS

21 Indexing

22 Lattice dimensions

23

24 Strain Particle size

25 Fluorescens

26 CuK  1 = 1.54056 Å CuK  2 = 1.54433 Å Primary and secondary monochromators

27 Rietveld refinement

28

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