Xrd (X-ray Diffraction) presentation
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Nov 19, 2017
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About This Presentation
different types of xrd, bragg's law, limitations of xrd, applications of xrd
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SEMINAR ON : X-RAY DIFFRACTION(XRD) CATALYTIC REACTION ENGINEERING (HCE23) DONE BY: KISHAN KASUNDRA 3/9/2017 1 CHEMICAL ENGINEERING DEPARTMENT, DSCE
CONTENTS: INTRODUCTION BRAGG’S LAW X-RAY DIFFRACTION METHODS APPLICATIONS OF XRD LIMITATIONS OF XRD REFERENCES 3/9/2017 2 CHEMICAL ENGINEERING DEPARTMENT, DSCE
INTRODUCTION: On 8 Nov, 1895, Wilhelm Conrad Röntgen (accidentally) discovered an image cast from his cathode ray generator, projected far beyond the possible range of the cathode rays (now known as an electron beam ). In 1912, Max Von Laue , Showed that if a beam of X rays passed through a crystal, diffraction would take place and a pattern would be formed on a photographic plate placed at a right angle to the direction of the rays. This discovery provided a new method for investigating the fine structure of matter. 3/9/2017 3 CHEMICAL ENGINEERING DEPARTMENT, DSCE
BRAGG’S LAW : After few months, In 1913, English physicists Sir William Henry Bragg and his son Sir William Lawrence Bragg developed a relationship to explain why the cleavage faces of crystals appear to reflect X-ray beams at certain angles of incidence (theta, θ). The variable d is the distance between atomic layers in a crystal, and the variable lambda λ is the wavelength of the incident X-ray beam; n is an integer . 3/9/2017 4 CHEMICAL ENGINEERING DEPARTMENT, DSCE
Although Bragg's law was used to explain the interference pattern of X-rays scattered by crystals, diffraction has been developed to study the structure of all states of matter with any beam. Bragg carried out a series of experiments, the result of which he published the Bragg equation – n λ = 2 d sin θ where, assume n = 1 for the first order reflection λ = wavelength θ = X-ray incidence angle d = distance between atomic layer 3/9/2017 5 CHEMICAL ENGINEERING DEPARTMENT, DSCE
X-RAY DIFFRACTION: X-ray powder diffraction (XRD) is a rapid analytical technique primarily used for phase identification of a crystalline material and can provide information on unit cell dimensions. 3/9/2017 6 CHEMICAL ENGINEERING DEPARTMENT, DSCE
To get the diffraction pattern from all parts of crystal, the primary beam must strike the crystal from many different directions. This is achieved by rotating the crystal in the beam during the experiment. The diffracted spots are recorded either on a film or by an electronic detector feed the signals directly in a digitized form into a computer. Several thousand diffraction spots are collected . All diffraction methods are based on generation of X-rays in an X-ray tube. These X-rays are directed at the sample, and the diffracted rays are collected. 3/9/2017 7 CHEMICAL ENGINEERING DEPARTMENT, DSCE
X-RAY DIFFRACTION METHODS : Generally, there are three methods which is used for diffraction of X-ray. Laue method Rotating crystal method Powder method 3/9/2017 8 CHEMICAL ENGINEERING DEPARTMENT, DSCE
LAUE METHOD: The Laue method is mainly used to determine the orientation of large single crystals while radiation is reflected from, or transmitted through a fixed crystal . The diffracted beams from arrays of spots, that lie on curves on the film. The B ragg angle is fixed for every set of planes in the crystal. Each set of planes picks out and diffracts the particular wavelength from the white radiation that satisfies the Bragg law for the values of and θ involved. 3/9/2017 9 CHEMICAL ENGINEERING DEPARTMENT, DSCE
BACK-REFLACTION LAUE METHOD: In the back-reflection method, the film is placed between the x-ray source and the crystal . The beams which are diffracted in a backward direction are recorded. One side of the cone of Laue reflection is defined by transmitted beam. The film intersects the cone, with the diffraction spots generally lying on an hyperbola. TRANSMISSION LAUE METHOD: In the transmission laue method, the film is placed behind the crystal to recorded beams which are transmitted through the crystal . One side of the cone of Laue reflection is defined by the transmitted beam. The film intersects the cone, with the diffraction spots generally lying on an ellipse. 3/9/2017 10 CHEMICAL ENGINEERING DEPARTMENT, DSCE
3/9/2017 11 CHEMICAL ENGINEERING DEPARTMENT, DSCE
2) ROTATING CRYSTAL METHOD: In a rotating crystal method, a single crystal is mounted with an axis normal to a monochromatic X-ray beam. A cylindrical film is placed around it and the crystal is rotated about the chosen axis . As a crystal rotates, sets of lattice will at some point make the correct Bragg angle for the monochromatic incident beam, and at that point a diffracted beam will be formed . Lattice constant of the crystal can be determined by means of this method; for a given wavelength if the angle at which are reflection occurs is known, can be determined . 3/9/2017 12 CHEMICAL ENGINEERING DEPARTMENT, DSCE
The reflected beams are located on the surface of imaginary cones. By recording the diffraction patterns( both angles and intensities) for various crystal orientations, one can determine the shape and size of unit cell as well as arrangement of atom inside the cell. 3/9/2017 13 CHEMICAL ENGINEERING DEPARTMENT, DSCE
3) POWDER METHOD : If a powdered specimen is used, instead of a single crystal, then there is the specimen, because there will always be some crystals at an orientation for which diffraction is permitted. Here a monochromatic X-ray beam is incident on a powdered or polycrystalline sample. This method is useful for samples that are difficult to obtaining single crystal form. 3/9/2017 14 CHEMICAL ENGINEERING DEPARTMENT, DSCE
For every set of crystal planes, by chance, one or more crystals will be in the correct orientation to give correct Bragg angle to satisfy Bragg’s equation. Every crystal plane is thus capable of diffraction. Each diffraction line is made up of a large number of small spots, each from a separate crystal. Each spot is so small as to give the appearance of a continuous line. 3/9/2017 15 CHEMICAL ENGINEERING DEPARTMENT, DSCE
POWDER DIFFRACTION PATTERN 3/9/2017 16 CHEMICAL ENGINEERING DEPARTMENT, DSCE
APPLICATIONS OF X-RAY DIFFRACTION : In material sciences, many complicated inorganic and organometallic systems have been analyzed using single-crystal and complicated compound methods. In mineralogy and metallurgy, X-ray diffraction has been used for determining the arrangement of atoms in minerals and metals. X-ray diffraction is used to study the larger molecules, such as chlorophyll. XRD is used to solving the structures of various biological molecules, e.g., penicillin, insulin, cholesterol. 3/9/2017 17 CHEMICAL ENGINEERING DEPARTMENT, DSCE
Obtain XRD patterns are used to measure d- spacings of the given compound. XRD is used to determination of Cis -Trans isomerism. X-ray diffraction is used to measure thickness of thin films and multi-layers. XRD is used to determine atomic arrangement. XRD is used to measure the size, shape and internal stress of small crystalline regions. 3/9/2017 18 CHEMICAL ENGINEERING DEPARTMENT, DSCE
LIMITATIONS OF X-RAY DIFFRACTION : For mixed material, detection limit is ~2% of sample. Peak overlay may occur and worsens for high angle reflections. 3/9/2017 19 CHEMICAL ENGINEERING DEPARTMENT, DSCE
REFERENCES : http://serc.carleton.edu/research_education/geochemsheets/techniques/XRD.html http://www.authorstream.com/Presentation/venkatkrishna-1155727-x-ray-diffraction-ppt2003/ http://nptel.ac.in/courses/103103026/13 https://en.wikipedia.org/wiki/XRD https://www.slideshare.net/NohmanMahmud/xrf-xrd-analysis-principle?qid=850fd4fd-9a6e-457a-ad1e-20ecc36dc0d6&v=&b=&from_search=1 https://www.slideshare.net/AnuradhaKVerma/xrd-basic?qid=5a442675-29c0-41c2-944c-d49d7a948fd6&v=&b=&from_search=6 3/9/2017 20 CHEMICAL ENGINEERING DEPARTMENT, DSCE
3/9/2017 21 CHEMICAL ENGINEERING DEPARTMENT, DSCE
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