Solid State Physics (1) Phys3710 Crystal structure 4 Lecture 4 Dr Mazen Alshaaer Second semester...
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Transcript of Solid State Physics (1) Phys3710 Crystal structure 4 Lecture 4 Dr Mazen Alshaaer Second semester...
![Page 1: Solid State Physics (1) Phys3710 Crystal structure 4 Lecture 4 Dr Mazen Alshaaer Second semester 2013/2014 Department of Physics 1 Ref.: Prof. Charles.](https://reader035.fdocuments.us/reader035/viewer/2022062314/56649e735503460f94b72f3e/html5/thumbnails/1.jpg)
Solid State Physics (1) Phys3710
Crystal structure 4Lecture 4
Dr Mazen AlshaaerSecond semester 2013/2014
Department of Physics
1Ref.: Prof. Charles W. Myles, Department of Physics, Texas Tech University
![Page 2: Solid State Physics (1) Phys3710 Crystal structure 4 Lecture 4 Dr Mazen Alshaaer Second semester 2013/2014 Department of Physics 1 Ref.: Prof. Charles.](https://reader035.fdocuments.us/reader035/viewer/2022062314/56649e735503460f94b72f3e/html5/thumbnails/2.jpg)
Crystal Structure 2
THE MOST IMPORTANT CRYSTAL STRUCTURES
• Sodium Chloride Structure Na+Cl-
• Cesium Chloride Structure Cs+Cl-
• Hexagonal Closed-Packed Structure
• Diamond Structure
• Zinc Blende
![Page 3: Solid State Physics (1) Phys3710 Crystal structure 4 Lecture 4 Dr Mazen Alshaaer Second semester 2013/2014 Department of Physics 1 Ref.: Prof. Charles.](https://reader035.fdocuments.us/reader035/viewer/2022062314/56649e735503460f94b72f3e/html5/thumbnails/3.jpg)
Crystal Structure 3
1 – Sodium Chloride Structure
• Sodium chloride also crystallizes in a cubic lattice, but with a different unit cell.
• The sodium chloride structure consists of equal numbers of sodium & chlorine ions placed at alternate points of a simple cubic lattice.
• Each ion has six of the other kind of ions as its nearest neighbors.
![Page 4: Solid State Physics (1) Phys3710 Crystal structure 4 Lecture 4 Dr Mazen Alshaaer Second semester 2013/2014 Department of Physics 1 Ref.: Prof. Charles.](https://reader035.fdocuments.us/reader035/viewer/2022062314/56649e735503460f94b72f3e/html5/thumbnails/4.jpg)
NaCl Structure
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![Page 6: Solid State Physics (1) Phys3710 Crystal structure 4 Lecture 4 Dr Mazen Alshaaer Second semester 2013/2014 Department of Physics 1 Ref.: Prof. Charles.](https://reader035.fdocuments.us/reader035/viewer/2022062314/56649e735503460f94b72f3e/html5/thumbnails/6.jpg)
• This structure can also be considered as a face-centered-cubic Bravais lattice with a basis consisting of a sodium ion at 0 and a chlorine ion at the center of the conventional cell, at position
• LiF, NaBr, KCl, LiI, have this structure.
• The lattice constants are of the order of 4-7 Angstroms.
)(2/
zyxa
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Crystal Structure 7
• Take the NaCl unit cell & remove all “red” Cl ions, leaving only the “blue” Na. Comparing this with the fcc unit cell, it is found to be that they are identical. So, the Na ions are on a fcc sublattice.
NaCl Structure
![Page 8: Solid State Physics (1) Phys3710 Crystal structure 4 Lecture 4 Dr Mazen Alshaaer Second semester 2013/2014 Department of Physics 1 Ref.: Prof. Charles.](https://reader035.fdocuments.us/reader035/viewer/2022062314/56649e735503460f94b72f3e/html5/thumbnails/8.jpg)
NaCl Type Crystals
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2 - CsCl Structure
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Crystal Structure 10
• Cesium chloride crystallizes in a cubic lattice. The unit cell may be depicted as shown. (Cs+ is teal, Cl- is gold).
• Cesium chloride consists of equal numbers of cesium and chlorine ions, placed at the points of a body-centered cubic lattice so that each ion has eight of the other kind as its nearest neighbors.
2 - CsCl Structure
![Page 11: Solid State Physics (1) Phys3710 Crystal structure 4 Lecture 4 Dr Mazen Alshaaer Second semester 2013/2014 Department of Physics 1 Ref.: Prof. Charles.](https://reader035.fdocuments.us/reader035/viewer/2022062314/56649e735503460f94b72f3e/html5/thumbnails/11.jpg)
• The translational symmetry of this structure is that of the simple cubic Bravais lattice, and is described as a simple cubic lattice with a basis consisting of a cesium ion at the origin 0 and a chlorine ion at the cube center
• CsBr,CsI crystallize in this structure.The lattice constants are of the order of 4 angstroms.
)(2/
zyxa
CsCl Structure
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8 cells
CsCl Structure
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CsCl Crystals
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Crystal Structure 14
4 - Diamond Structure• The diamond lattice consists of 2 interpenetrating FCC lattices.
• 8 atoms in the unit cell. Each atom bonds covalently to 4 others equally spaced about a given atom.
• The Coordination Number = 4.
• The diamond lattice is not a Bravais lattice.
• C, Si, Ge and Sn crystallize in the diamond structure.
![Page 15: Solid State Physics (1) Phys3710 Crystal structure 4 Lecture 4 Dr Mazen Alshaaer Second semester 2013/2014 Department of Physics 1 Ref.: Prof. Charles.](https://reader035.fdocuments.us/reader035/viewer/2022062314/56649e735503460f94b72f3e/html5/thumbnails/15.jpg)
• The Zincblende Structure has equal numbers of zinc and sulfur ions distributed on a diamond lattice, so that each has 4 of the opposite kind as nearest-neighbors.
• This structure is an example of a lattice with a basis, both because of the geometrical position of the atoms & because two types of atoms occur.
• Some compounds with this structure are:
AgI, GaAs, GaSb, InAs, ....
5 – Zinc Blende or ZnS Lattice
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5 – Zinc Blende or ZnS Structure
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Crystal Structure 17
• Each of the unit cells of the 14 Bravais lattices has one or more types of symmetry properties, such as inversion, reflection or rotation,etc.
SYMMETRY
INVERSION REFLECTION ROTATION
ELEMENTS OF SYMMETRY
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Crystal Structure 18
Typical symmetry properties of a lattice.That is, some types of operations that can leave a lattice invariant.
Operation Element
Inversion Point
Reflection Plane
Rotation Axis
Rotoinversion Axes
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Crystal Structure 19
Inversion• A center of inversion: A point at the center of the molecule.
(x,y,z) --> (-x,-y,-z)• A center of inversion can only occur in a molecule. It is not necessary
to have an atom in the center (benzene, ethane). Tetrahedral, triangles, pentagons don't have centers of inversion symmetry. All Bravais lattices are inversion symmetric.
Mo(CO)6
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Crystal Structure 20
• A plane in a cell such that, when a mirror reflection in this plane is performed, the cell remains invariant.
Reflection Through a Plane
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Crystal Structure 21
Examples
• A triclinic lattice has no reflection plane.• A monoclinic lattice has one plane midway
between and parallel to the bases, and so forth.
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Crystal Structure 22
There are always a finite number of rotational symmetries for a lattice.
• A single molecule can have any degree of rotational symmetry, but an infinite periodic lattice – can not.
Rotation Symmetry
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Crystal Structure 23
• This is an axis such that, if the cell is rotated around it through some angles, the cell remains invariant.
• The axis is called n-fold if the angle of rotation is 2π/n.
90°
120° 180°
Rotational Symmetries
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Crystal Structure 24
Axes of Rotation
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Crystal Structure 25
Axes of Rotation
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Crystal Structure 26
This type of symmetry is not allowed because it can not be combined with translational periodicity!
5-Fold Symmetry
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Crystal Structure 27
Group Discussion• Kepler wondered why snowflakes have 6 corners, never 5
or 7. By considering the packing of polygons in 2 dimensions, demonstrate why pentagons and heptagons shouldn’t occur.
Empty space is not allowed
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Crystal Structure 28
90°
Examples• A Triclinic Lattice has no axis of rotation.• A Monoclinic Lattice has a 2-fold axis
(θ= 2π/2 =π) normal to the base.
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Crystal Structure 29
Examples