dr semën gorfman department of physics, university of siegen · dr semën gorfman department of...
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Dr Semën Gorfman Department of Physics, University of SIegen
Lecture course on crystallography, 2015
Lecture 1: Introduction to crystallography
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Recommended Books Fundamentals of Crystallography C. Giacovazzo Oxford University Press, 1992 ~ 70 EURO (Amazon) Available in University library
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Einführung in die Kristallographie Kleber, Bautsch, Bohm, Klimm Available in University library
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Recommended Books
Space Groups for Solid State Scientist G. Burns, A. M. Glazer Elsevier ~ 64 EURO (Amazon) Limited availability in the University library
Kristallographische Grundbegriffe der Festkörperphysik P. Paufler, D.Leuschner JUST 9 EURO (Amazon)! Limited availability in the University library
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Recommended Books Early Days of X-ray crystallography A. Authier Oxford University Press, 1992 ~ 60 EURO (Amazon) NOT Available in University library
The basics of crystallography and Diffraction C.Hammond Oxford University Press, 1992 Very Limited availability in University library
Structure of Materials Marc de Graef, Michael Mc Henry Cambridge University Press, 2007 ~ 70 EURO (Amazon) NOT Available in University library
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Recommended Books
If you feel advanced and want to know EVERYTHING in MODERN CRYSTALLOGRAPHY
International Tables for Crystallography, Volumes A - D
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Objectives of the course
To provide the basic knowledge about the structure of crystalline materials. To understand the most important concepts of crystallography such as crystal lattice, unit cell, symmetry, atomic positions To give an idea about the role of symmetry for the description of crystal structures
To provide with the key knowledge for understanding X-ray and electron diffraction experiement used to investigate the structure of materials.
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2014: International year of crystallography
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8/47 04/06/2014 S Gorfman, Dynamical X-ray crystallography… Colloquium, TU Freiberg
www.iycr2014.org
Why 2014?
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Nobel Prizes, associated with Crystallography http://www.iucr.org/people/nobel-prize
Max von Laue 1914
WH Bragg and WL Bragg 1915
All together: 29; Physics prizes: 10; Chemistry prizes: 18; Physiology and medicine 1
Dan Shechtman 2011
D Hodgkin 1964
C Shull 1994
Davisson and GP Thompson 1937
L Pauling 1994
F Crick, J Watson and M Wilkins 1962
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On particular highlight
Rosalind Franklin
Double helix structure of DNA
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PHYSICS
CHEMISTRY
MATHS
MODERN CRYSTALLOGRAPHY
Material science
Biology
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What is a crystal?
Originally from Greek: CRYSTAL – NATURAL ICE
Visit www.snowcrystals.com for your own pleasure
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What is a crystal?
Originally from Greek: CRYSTAL – NATURAL ICE
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Visit www.snowcrystals.com for your own pleasure
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The growth of an ice crystal
http://www.iflscience.com/chemistry/watch-snowflake-form-your-eyes
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Common feature of snow flakes
Snowflakes are found in many different morphologies. There are however two common features for all of them
1. Chemical composition: H2O
2. Symmetry of the shapes. Independent on the particular morphology the snowflake always appear as 6 folded. There are no 4-fold, 5-fold, 7-fold, etc snowflakes found in nature.
Conclusion: There is a specific feature of internal arrangement of the flakes responsible for 6-fold symmetry
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Minerals
Minerals are natural solids formed as a result of the certain geological processes
Minerals are the largest source of naturally formed crystalline solids
QUARTZ, SiO2
http://webmineral.com
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Mackayite, Fe3Te2O5(OH)
http://webmineral.com
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DIAMOND, C
http://webmineral.com
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Common features of minerals
Formation of natural facets The external shape of a single mineral is a well developed polyhedron. The facets of the polyhedral are natural and flat on the atomic level.
First stage of crystallography Investigating of crystal morphologies, i.e. external shapes of natural minerals. However it was more difficult to find the common features of external shapes of minerals.
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Some electron microscopy images of natural faces
© AUBERT Emmanuel, Nancy, France
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THE BIRTH OF CRYSTALLOGRAPHY : The law of constancy of the interfacial angles
Nicolaus Steno (1638-1686)
...The angles between the crystal faces of a given species are constant, whatever the lateral extension of the faces and the origin of the crystal. The set of interfacial angles is the characteristic of that species...
Romé de L’Isle (1736 -1790)
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THE BIRTH OF CRYSTALLOGRAPHY : The law of rational indices
2. Haüy (1743-1822) First mathematical approach to the description of the crystal faces in
crystals
...For the given crystal species it is always possible to choose three vectors, a, b and c so that all the natural faces of this crystal cut the lengths proportional to the three integer numbers ...
The exact meaning of these three integer numbers will be explained later
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Models from Haüy's Traité de Minéralogie (1801)
The graphical illustration of the law of rational indices
Original idea: the crystal is formed by pilling up the elementary blocks (for example cubes or parallelopipeds). The formation of natural faces are shown below
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The graphical illustration of the law of rational indices
a
b
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In the works of Nicolaus Steno (1638-1686) , Romé de L’Isle (1736 -1790) the first systematic studies of crystal shapes were performed. Result – the law of constancy of interfacial angles. This is an important empirical observation, however it does not give any insight into the internal structure.
Haüy (1743-1822) was the first who formulated the link between fascinating polyhedral shape and internal structure of crystal. His hypothesis was to explain the crystal shape by the periodic structure of a crystal.
Crystal shape
a b
c
Internal directions
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Anisotropy of physical properties
2. Electrical conductivity
_ +
+
-
1. Growth velocity (formation of facets)
ZnSiP2 crystals
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Physical properties of crystals: pyroelectric effect in tourmaline
Pyroelectricity is the separation of the electric charges in a crystal by the change of temperature
Tourmaline crystal
+ + + + + + + + + + + + +
- - - - - - - - - - - - - - - - -
DT
Important: pyroelectric effect is anisotropic, electrical charges develop only in certain directions, i.e. on the certain faces of a crystal.
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Discovery of piezoelectricity in QUARTZ
Further studies of physical properties of crystals. Pierre Curie (1859-1906)
Piezoelectricity is a physical phenomena occurring in some crystals, related to the generation of electric charges by external pressure.
General for crystals – ANISOTROPY of PHYSICAL properties 28
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“Life” example of anisotropic physical properties Cutting a scarf is a typical example of the directional dependence
The reason for that is the special STRUCTURE made by the stitching
BONDS
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~ 1 mm=10-3 m
Hypothesis of Pierre Curie – anisotropy of crystals is due to the periodic structure
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Max von Laue 1912
1914
Nobel prize in physics
"for his discovery of the diffraction of X-rays by crystals"
Crystallography -> birth of solid state physics
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X-ray tube
Primary X-ray beam
Crystal
Photographic film The first Laue pattern
Conclusions
1. X-rays are electromagnetic waves
2. Crystal structures are periodic
3. The period of crystal lattice has the order of the wavelength of X-rays
Discovery of X-ray diffraction (Max von Laue, Friedrich, Knipping, 1912)
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Laue diffraction patterns
a-Quartz crystals (SiO2)
Bragg peaks
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The discovery of X-ray diffraction by Max von Laue (1912) is the final and ultimate proof of the periodic structure of crystals. Moreover it was shown that the period of a crystal structure has the order of Å = 10-10 m
Nowadays X-ray diffraction is the main tool for the solving, determination and characterization of crystal structures
The works of W.H. Bragg and W.L.Bragg allowed to establish the first crystal structures, i.e. the real arrangement of atoms in a crystal
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The first REAL crystal structure
1915 Nobel prize in physics
"for their services in the analysis of crystal structures be means of X-rays "
Sir William Henry Bragg William Lawrence Bragg
Atomic structure of NaCl, KCl, LiF was established
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Take home message: what is a crystal
Crystalline solid Amorphous solid
Shape Polyhedral shape with naturally formed faces
No naturally formed faces
Properties Anisotropic Isotropic
Atomic structure
Periodic (long range ordered)
No periodicity. Short-order only
X-ray Diffraction
Well separated diffraction picture with DISTINCT spots
No clearly separated features
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The concept of long-range order Long-range order is the geometrical law of expansion maintained
over long (in comparison to interatomic) distances!
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The concept of short-range order Short-range order is the geometrical law of expansion maintained
over short distances only
The structures of amorphous solids and liquids are commonly described by probability laws, based on the so-
called radial distribution functions and pair-distribution functions.
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CRYSTAL: Official definition
International Union of CRYSTALLOGRAPHY
A material is a crystal if it has essentially sharp diffraction pattern. The word essentially means that most of the intensity of the diffraction is concentrated in relatively sharp Bragg peaks, besides the always present diffuse scattering
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