Packing of more than one type of sphere into unit cells:

Slides:

Advertisements

Similar presentations

Objectives By the end of this section you should:

Advertisements

Objectives By the end of this section you should: understand the concept of close packing know the difference between hexagonal and cubic close packing.

Bonding in Solids There are four types of solid:

Figure 16.9: Three cubic unit cells and the corresponding lattices.

Unless otherwise stated, all images in this file have been reproduced from: Blackman, Bottle, Schmid, Mocerino and Wille, Chemistry, 2007 (John Wiley)

Unit Cell of Crystal Structure

Solids Ch.13. Solids Fixed, immobile (so to speak) Fixed, immobile (so to speak) Symmetry Symmetry Crystals Crystals So what’s the inner order? So what’s.

Unit Cells Let’s look at two different ways to visualize the structure of a solid.

In the mineral graphite, the carbon atoms are arranged in sheets where the atoms are joined together in a hexagonal pattern and held together by the strongest.

Previously in Chem 104: types of solids Unit Cell 3 types of cubic cells contents of unit cell Lecture 1 posted! TODAY Z quantify relationship between.

L Consider coordination of anions about a central cation Coordination Polyhedra Halite Cl Cl Cl Cl Na.

Packing of more than one type of sphere into unit cells: -Packing of ions in salts -Which is usually larger, negative (anions) or positive (cations) ions?

2D Packing Examples hole Answer the following questions for both packing diagrams. 1.Find the smallest unit that, if repeated, would give you the entire.

Hole Answer the following questions for both packing diagrams. 1.Draw the unit cell for each packing example. How many atoms I are there in each unit cell?

Crystalline Structures Edward A. Mottel Department of Chemistry Rose-Hulman Institute of Technology.

Previously in Chem 104: types of solids Unit Cell TODAY 3 types of cubic cells contents of unit cell, Z quantify relationship between cell and density.

Crystalline Structures Edward A. Mottel Department of Chemistry Rose-Hulman Institute of Technology.

Crystalline Structures Edward A. Mottel Department of Chemistry Rose-Hulman Institute of Technology.

Chapter 3: Structures of Metals & Ceramics

Ionic – Bonding and Crystal Structure. Valence and Lewis Bond Theory metals and non-metals exchange electrons eg. Na 2 O O [He]    2s 2 2p 4 Na [Ne]

Instructor: Dr. Upali Siriwardane

Section 12.3 Ionic Solids Bill Vining SUNY Oneonta.

1 Structures of Solids n Solids have maximum intermolecular forces. n Molecular crystals are formed by close packing of the molecules (model by packing.

Unit cell/ packing efficiency. Given 8 spheres to stack, how would you do it? Simple cubic structure.

Chapter 13 The Chemistry of Solids Types of Solids Metals Network Ionic Molecular Amorphous.

1) Bell Ringer: What are valence electrons? What is the difference between an ionic and molecular compound? 2) Worksheet #13 3) QUIZ #6.

Closest Packing of Spheres How do spheres (atoms) pack to best fill space?? The concept of closest packing is important for understanding many solid structures.

1.  Chemists believe that many chemical compounds contain ions  Common Properties of these compounds: ◦ High melting point (ex: salt melt at 800*C)

Chemistry. Solid State-II Session Objectives  Voids  Packing fraction.

Close-packed Spheres Units cells: point and space symmetry

STRUCTURES OF SOLIDS S. Chandravathanam 16/4/2005

Topic #2: The Chemical Alphabet Fall 2008 Dr. Susan Lait

Objectives By the end of this section you should: know how atom positions are denoted by fractional coordinates be able to calculate bond lengths for octahedral.

Metallic and Ionic Solids Sections

Prentice Hall © 2003Chapter 11 Types of Solids Molecular Solidsex. CO 2, H 2 O, Ar Covalent-Network Solidsex. Diamond, quartz, SiO 2 Metallic Solidsex.

11.7 Structures of Solids Zek Zhang Kevin Nash, *Matt Coleman¯\_( ツ )_/¯ *yeah were not racist, the non-white is not last.

Inorganic Material Chemistry

Intramolecular Forces Forces (chemical bonds) within a molecule Typical value: 350 kJ/mol C-C bond Intermolecular Forces Forces between molecules Typical.

Ceramic Crystal Structures. Interstitial sites = small holes between the lattice atoms where smaller atoms may be placed. The smaller atoms should be.

Crystal lattice structure

GIANT IONIC LATTICES.

Presented By: Dr. Vatsala Soni

Ionic Bonding Whereas the term covalent implies sharing of electrons between atoms, the term ionic indicates that electrons are taken from one atom by.

Next time: Diffraction

Metals - Bonding and Crystal Structure

Chemistry 481(01) Spring 2017 Instructor: Dr. Upali Siriwardane

Chapter 3: Solid State Chemistry Week 7

Chapter 3: Solid State Chemistry

CRYSTAL LATTICE & UNIT CELL

Solid State Lattices.

Primitive and conventional cells

PH-571 Dr. Hla Ohio University

Solid state (Calculations & Doping)

IONIC SOLIDS IONIC SOLIDS T.Y. B.Sc. Dr. R. K. Jadhav

UNIT CELLS UNIT CELL – The smallest repeating unit of a crystalline solid EXP11-1 (of 11)

The Solid State.

Solid state (Calculations & Doping)

Ionic Bonding Whereas the term covalent implies sharing of electrons between atoms, the term ionic indicates that electrons are taken from one atom by.

Atomic Structure.

Solid Crystal Structures. (based on Chap

Crystal structure of Diamond

Solid Crystal Structures. (based on Chap

Ionic Compounds.

Solid Crystal Structures. (based on Chap

Coordination Polyhedra

10.4 Structure and Bonding In Metals

The Solid-State Structure of Metals and Ionic Compounds

Presentation transcript:

Packing of more than one type of sphere into unit cells: Packing of ions in salts Which is usually larger, negative (anions) or positive (cations) ions? Construct binary salts in lattice with anions usually occupying positions in unit cell and cations in holes in cell How do you describe salts with more than one atom type? By unit cells and holes NaCl Space fill

Tetrahedron – 4 identical equilateral triangles 109.50 Types of Holes Ion in hole 3 atoms e clouds in plane TETRAHEDRAL What's a tetrahedron What's an octahedron Holes: Chemtube3D Cubic close packed / Face-centred cubic (ccp/fcc) CCP and holes Tetrahedron – 4 identical equilateral triangles 5 atoms/ e clouds in plane SF6 Octahedron – 8 identical triangles OCT AHEDRAL CUBIC Cube –

CUBIC CLOSEST PACKING – FACE CENTERED CUBIC HOLES SIMPLE CUBIC PACKING HOLES CUBIC C C CUBIC CLOSEST PACKING – FACE CENTERED CUBIC HOLES T O O O O tetrahedral octahedral Unit Cell Packing Eff Coord # Holes ≈ Hole Size (r=1), Simple Cubic 0.52 6 cubic 0.732-1.00 Face centered 0.74 12 4 Octahedral Tetrahedral 0.414-0.732 0.225-.0.414

Example: NaCl (Jmol) x y z What type of unit cell is defined by the Cl- ions? z=1 Top face z=0.5 z=0 Bottom face Tetrahedral Holes How many tetrahedral holes are there in the fcc unit cell? Are there any Na+ ions occupying the holes? Octahedral Holes How many octahedral holes are there in one fcc unit cell? In what type of holes are Na+ ions in edges throughout the whole lattice?

Hexagonal Closest Packing Z=1 A Arsenide Nickel Z=0.75 B Z=0.5 Example: Nickel Arsenide (this Jmol link shows lattice based on Ni as in workbook pg 49, #4) Z=0.25 In what type of hole is Ni found in the structure above How many As are in the unit cell to the right? How many Ni? What is the formula for nickel arsenide? Locate a tetrahedral hole? Are there any Ni ions there? Z=0 A Unit cell: hexagonal closest packing Of Arsenide with Ni in what holes?

Determining the empirical formula from unit cell data: A salt must be electrically neutral. If you know the charge on the cations and anions, you can determine MxNy. Alternatively, you can use crystal data to determine the structure of the unit cell and hence the empirical formula. Determine the number of each different ion in the following unit cells. Does it correspond to the formula from charge balance? Copper (I) chloride Cl 4. Based on Cl- alone, what type of unit cell is this? What type of “hole” is occupied by Cu+? Cu 2. Barium Chloride 3. Rhenium oxide Examples from Chemtube3D